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Section 76

EurekaMag Full Text Articles Chapter 75,526



References:

Depoy, R.E.; Kodama, G. 1988: Formation of diboron complex cations. Inorganic Chemistry 27(10): 1836-1839
Limin, C.H.A.N.G.; Lifeng, T.I.A.N.; Wei, L.I.U.; Xiaoyue, D.U.A.N. 2013: Formation of dicalcium phosphate dihydrate on magnesium alloy by micro-arc oxidation coupled with hydrothermal treatment. Corrosion Science 72: 118-124
Demirci, S.; Caykara, T. 2010: Formation of dicarboxylic acid-terminated monolayers on silicon wafer surface. Surface Science 604(7-8): 649-653
Greim, H.; Wolff, T.; Hofler, M.; Lahaniatis, E. 1984: Formation of dichloroacetylene from trichloroethylene in the presence of alkaline material. Possible cause of intoxication after abundant use of chloroethylene-containing solvents. Archives of Toxicology 56(2): 14-77
Clode, M.P.; Sheppard, T. 1990: Formation of die lines during extrusion of AA 6063. Materials Science and Technology 6(8): 755-763
Muroyama, M.; Kawashima, A.; Sato, J.I. 1993: Formation of dielectric films for gap-filling by NH3-added H2O-tetraethoxysilane plasma chemical vapor deposition. Jpn. J. Appl. Phys 32(12B): 6122-6125
Kingsbury, K.B.; Carter, J.D.; Mcelweewhite, L.; Ostrander, R.L.; Rheingold, A.L. 1994: Formation of 1,3-diene complexes upon protonation of cyclopropylcarbyne complexes. Organometallics 13(5): 1635-1640
Fischer, A.; Mathivanan, N. 1988: Formation of dienones on the reaction of cresols, xylenols, and 2-naphthol with nitrogen dioxide: observation of keto tautomers of nitrophenols. Tetrahedron Letters 29(16): 1869-1872
Yamada, T. 1988: Formation of diethylene glycol by dehydration of glycol in the presence of terephthalic acid. Polymer Engineering and Science 28(1): 37-41
Fang, L.I.Z.H.I.; Xiang, S.H.O.U.P.I.N.G. 1985: Formation of difference in distribution between visible and invisible matters in the expanding universe. Chinese Astronomy and Astrophysics 9(1): 66-70
Stassi, J.P.; Zgolicz, P.D.; De Miguel, S.R.; Scelza, O.A. 2013: Formation of different promoted metallic phases in PtFe and PtSn catalysts supported on carbonaceous materials used for selective hydrogenation. Journal of Catalysis 306: 11-29
Loginov, A.Y.U.; Vishnetskaya, M.V.; Voskoboinikov, T.V.; Kosolapova, A.P.; Ikonnikov, I.A. 1991: Formation of different states of iron in ferrisilicates. I : Study of the Na forms of pentasils by ESR. Russian Journal of Physical Chemistry 65(5): 701-704
Nakhodkin, N.G.; Rodionova, T.V. 1991: Formation of different types of polysilicon film structures and their grain growth under annealing. Physica Status Solidi. A. Applied Research 123(2): 431-439
Pavelyev, V.S.; Borodin, S.A.; Kazanskiy, N.L.; Kostyuk, G.F.; Volkov, A.V. 2007: Formation of diffractive microrelief on diamond film surface. Optics and Laser Technology 39(6): 1234-1238
Dutta, R.S.; Yusufali, C.; Paul, B.; Majumdar, S.; Sengupta, P.; Mishra, R.K.; Kaushik, C.P.; Kshirsagar, R.J.; Kulkarni, U.D.; Dey, G.K. 2013: Formation of diffusion barrier coating on superalloy 690 substrate and its stability in borosilicate melt at elevated temperature. Journal of Nuclear Materials 432(1-3): 72-77
Sequeira, C.A.C.; Nunes, C.M.G.S. 1987: Formation of diffusion coatings on iron and steel. I: Formation processes - Formation de couches de diffusion sur le fer et l'acier. I: Processus de formation. Surface Engineering 3(2): 161-167
Sequeira, C.A.C.; Pacheco, A.M.G.; Nunes, G.M.G.S. 1987: Formation of diffusion coatings on iron and steel. II: Theoretical considerations - Formation des revêtements par diffusion sur le fer et l'acier. II. Considérations théoriques. Surface Engineering 3(3): 247-260
Sequeira, C.A.C.; Pacheco, A.M.G.; Nunes, C.M.G.S. 1988: Formation of diffusion coatings on iron and steel. III: Aluminium, chromium, and zinc coatings - Formation de couches de diffusion sur le fer et l'acier. III: Revêtements d'aluminium, de chrome et de zinc. Surface Engineering 4(1): 65-81
Dragunov, V.K.; Goncharov, A.L.; Nemytov, D.S. 2005: Formation of diffusion interlayers in electron beam welded joints in diaphragms of steam turbines. Welding International 19(9): 717-723
Youinou, M.T.; Ziessel, R.; Lehn, J.M. 1991: Formation of dihelicate and mononuclear complexes from ethane-bridged dimeric bipyridine on phenanthroline ligands with copper(I), cobalt(II), and iron(II) cations. Inorganic Chemistry 30(9): 2144-2148
Estendorfer, S.; Ledl, F.; Severin, T. 1990: Formation of 4,5-dihydorxiy-2-α-D-glucopyranosiloxy-5-methyl-2-cyclopenten-1-one in the mailland reaction of maltose. Tetrahedron (Oxford. Print) 46(16): 5617-5620
Speier, G.; Tyeklar, Z.; Fulop, V.; Parkanyi, L. 1988: Formation of 2,3-dihydro-1,3,2-benzoxazaphospholes by cheletropic reaction of o-quinone monoimines with triphenylphosphane: crystal and molecular structures of 2,3-dihydro-2,2,2-triphenylphenanthro[9,10-d]-1,3,2λ5-oxazaphosphole and 5,7-di-tert-butyl-2,3-dihydro-2,2,2-triphenyl-1,3,2λ5-benzoxazaphosphole. Chemische Berichte 121(9): 1685-1688
Isoda, S.; Kanno, H. 1992: Formation of 2,5-dihydro-3H-pyrazolo [4,3-c] quinolin-3-ones from ethyl 3-anilino-2-(2-tert-butyl-2H-tetrazol-5-yl) acrylates. Heterocycles (Sendai) 33(1): 273-279
Bonini, B.F.; Maccagnani, G.; Mazzanti, G.; Zwanenburg, B. 1985: Formation of 3,6-dihydro-1,2,4-oxathiazines from thioketone S-oxides and a 2H-azirine via a new type of [3,3] cycloaddition reaction. Journal of the Chemical Society. Chemical Communications (4): 237-238
Yokoyama, T.; Fujita, N.; Maki, T. 1995: Formation of dihydrogen and carboxylic acid from water and aldehyde over metal oxide catalysts. Applied Catalysis. A, General 125(1): 159-167
Nakayama, J.; Ikuina, Y.; Murai, F.; Hoshino, M. 1987: Formation of 2,5-dihydroselenophenes and 1,3-dienes from diketo selenides by reduction with low-valent titanium reagents. Journal of the Chemical Society. Chemical Communications (14): 1072-1073
Bolognese, A.; Piscitelli, C.; Scherillo, G. 1983: Formation of dihydrotriphenodioxazines and dihydroisotriphenodioxazines by acidic treatment of some substituted 3H-phenoxazin-3-ones: isolation and characterization. A new perspective in the chemistry of ommochromes. Journal of Organic Chemistry 48(21): 3649-3652
Serizawa, N.; Nakahara, K.; Matsuoka, T. 1990: Formation of dihydroxy derivative of ML-236B from ML-236B (compactin) by lipid peroxidation. Journal of Antibiotics (Tokyo 1968) 43(8): 1031-1033
Baumert, A.; Porzel, A.; Schmidt, J.; Groger, D. 1992: Formation of 1,3-dihydroxy-N-methylacridone from N-Methylanthraniloyl-CoA and Malonyl-CoA by cell-free extracts of Ruta graveolens. Zeitschrift für Naturforschung. C. a Journal of Biosciences 47(5-6): 365-368
Tanaka, T.; Suzuki, T.; Miyachi, N.; Hotta, Y.; Omori, T. 1993: Formation of 2,3-dihydroxy-p-toluic acid from p-xylene by mutant strain MX-3, derived from Antrobacter sp. X-37 capable of utilizing p-xylene. Seibutsu-Kogaku Kaishi 71(3): 159-163
Casey, C.P.; Meszaros, M.W.; Fagan, P.J.; Bly, R.K.; Colborn, R.E. 1986: Formation of diiron μ-alkenyl complexes from the reaction of a μ-methylidyne complex with selected alkenes. Journal of the American Chemical Society 108(14): 4053-4059
Riley, D.P.; Busch, D.H. 1983: Formation of diketone ligands by oxidation of macrocyclic iron(II) complexes with molecular oxygen. Inorganic Chemistry 22(26): 4141-4144
Gurkov, T.D.; Kralchevsky, P.A.; Nagayama, K. 1996: Formation of dimers in lipid monolayers. Colloid and Polymer Science 274(3): 227-238
Uncuta, C.; Gheorgiu, M.D.; Balaban, A.T. 1987: Formation of 6,6-dimethyl-2,4-cyclohexadienylidene-1-imines from primary amines and 2,6-diisopropylpyrylium salts. Tetrahedron Letters 28(27): 3143-3144
Semikolenov, V.A.; Boldyreva, M.E.; Schmidt Yu, V.; Stepanov, A.G. 1989: Formation of 2,6-dimethylaniline from 2,6-dimethylphenol with catalysts obtained via anchoring colloidal palladium compounds on carbon supports. J. Mol. Catal 55(1-3): 415-428
Ginzburg, B.; Dor, I.; Chalifa, I.; Hadas, O.; Lev, O. 1999: Formation of dimethyloligosulfides in Lake Kinneret : Biogenic formation of inorganic oligosulfide intermediates under oxic conditions. Environmental Science and Technology 33(4): 571-579
Samuelson, O.; Ojteg, W. 1986: Formation of dinitrogen oxide and carbon dioxide during treatment of lignin with NO2/O2. Holzforschung 40(4): 233-236
Krause, M.J.; Bergman, R.G. 1985: Formation of dinuclear rhodium dialkyl complexes by alkylation of a new dinuclear dianion and by alkylation of a new dinuclear dianion and by nucleophilic addition of alkyllithium reagents across a metal-metal double bond. Journal of the American Chemical Society 107(10): 2972-2973
Weston, A.; Grover, P.L.; Sims, P. 1983: Formation of 1,2-diol as a metabolite of 7,12-dimethylbenz[a]-anthracene by rodent and human skin - Formation de 1,2-diol comme métabolite du 7,12-diméthylbenz(a)anthracène par la peau humaine ou de rongeur. Carcinogenesis (New York. Print) 4(10): 1307-1311
Tategami, S.I.; Yamada, T.; Nishino, H.; Korp, J.D.; Kurosawa, K. 1990: Formation of 1,2-dioxacyclohexanes by the reaction of alkenes with tris(2,4-pentanedionato)manganese(III) or with β-ketocarbonyl compounds in the presence of manganese(III) acetate. Tetrahedron Letters 31(44): 6371-6374
Ando, W.; Kako, M.; Akasaka, T. 1992: Formation of 1,2,3,6-dioxadigermine in the electron-transfer oxygenation of 1,2-digermetene. Journal of the Chemical Society. Chemical Communications (6): 458-460
Akasaka, T.; Sato, K.; Kako, M.; Ando, W. 1991: Formation of 1,2,3,6-dioxadisilin in photo-induced electron transfer oxygenation of 1,2-disiletene. Tetrahedron Letters 32(45): 6605-6608
Gollnick, K.; Schnatterer, A. 1984: Formation of 1,2-dioxanes by electron-transfer photooxygenation of 1,1-disubstituted ethylenes. Tetrahedron Letters 25(26): 2735-2738
Nishino, H.; Tategami, S.; Yamada, T.; Korp, J.D.; Kurosawa, K. 1991: Formation of 1,2-dioxanes by the use of tris(2,4-pentanedionato)-manganese(III) or manganese(III) acetate. Bulletin of the Chemical Society of Japan 64(6): 1800-1809
Schaap, A.P.; Prasad, G.; Siddiqui, S. 1984: Formation of 1,2,4-dioxazolidines by electron-transfer photooxygenation of aziridines. Tetrahedron Letters 25(29): 3035-3038
Takasuga, T.; Makino, T.; Tsubota, K.; Takeda, N. 2000: Formation of dioxins (PCDDs/PCDFs) by dioxin-free fly ash as a catalyst and relation with several chlorine-sources. Chemosphere (Oxf.) 40(9-11): 1003-1007
Ando, W.; Kako, M.; Akasaka, T.; Nagase, S.; Kawai, T.; Nagai, Y.; Sato, T. 1989: Formation of 1,2-dioxolane in the singlet oxygenation of a silicon-silicon σ-bond: peroxonium ion intermediate. Tetrahedron Letters 30(48): 6705-6708
Akasaka, T.; Fukuoka, K.; Ando, W. 1991: Formation of 1,2-dioxolane in the singlet oxygenation of cyclopropane. Tetrahedron Letters 32(52): 7695-7698
Kimura, T.; Nakamura, M.; Ohe, K. 1998: Formation of dip structure of electron energy distribution function in diffused nitrogen plasmas. Journal of the Physical Society of Japan 67(10): 3443-3449
Shukun, L.I.N.; Trapp, C. 1988: Formation of 9,10-diphenylanthracene radical cation from Friedel-Crafts alkylation reactions. Absence of the triphenylsilyl radical. Journal of Organic Chemistry 53(3): 698-700
Petrova, G.P.; Petrusevich, Y.M.; Ten, D.I. 2002: Formation of dipole complexes in protein solutions with low concentrations of heavy metal ions: diagnostics by the method of laser radiation scattering. Quantum Electronics (Woodbury) 32(10): 897-901
Shukla, P.K.; Yu, M.Y. 1985: Formation of dipole vortex in the ionosphere. Geophysical Research Letters 12(4): 163-165
Ashmore, J.; Bishop, R.; Craig, D.C.; Scudder, M.L. 2009: Formation of Diquinoline Molecular Bricks and Their Assembly into Lattice Inclusion Compounds. Crystal Growth and Design 9(6): 2742-2750
Yukalov, V.I.; Yukalova, E.P. 2000: Formation of directed beams from atom lasers. Lphys'99 International Laser Physics Workshop 10(1): 64-70
Movchan, I.V.; Pedan, L.G.; Ivanitsa, V.I. 1990: Formation of directional austenite-carbide structures during the carburization of complex alloyed steels. Metal Science and Heat Treatment 32(7-8): 565-568
Ljungberg, K.; Grey, F.; Bengtsson, S. 1997: Formation of directly bonded Si/Si interfaces in ultra-high vacuum. Appl. Surf. Sci 117-18: 813-819
Kohshima, S. 1987: Formation of dirt layers and surface dust by micro-plant growth in Yala (Dakpatsen) Glacier, Nepal Himalayas. Bulletin of Glacier Research (5): 63-68
Chertock, A.; Kurganov, A.; Rosenau, P. 2003: Formation of discontinuities in flux-saturated degenerate parabolic equations. Nonlinearity (Bristol. Print) 16(6): 1875-1898
Voeikov, I.V.; Chashechkin Yu, D. 1993: Formation of discontinuities in the wake of a cylinder in a stratified flow. Fluid Dynamics 28(1): 14-18
Nikolic, N.D.; Pavlovic, L.J.; Pavlovic, M.G.; Popov, K.I. 2007: Formation of dish-like holes and a channel structure in electrodeposition of copper under hydrogen co-deposition. Electrochimica Acta 52(28): 8096-8104
Fabbricino, M.; Korshin, G.V. 2005: Formation of disinfection by-products and applicability of differential absorbance spectroscopy to monitor halogenation in chlorinated coastal and deep ocean seawater. Desalination (Amst.) 176(1-3): 57-69
Xingbin, S.U.N.; Ying, L.U.; Yifeng, J.I.A.N.G.; Lei, S.U.N.; Huayin, P.A.N. 2013: Formation of disinfection by-products from the monochloramination of chironomid larvae metabolite solution. Desalination and Water Treatment 51(28-30): 5848-5854
Venkataraman, S.; Lee, A.L.; Maune, H.T.; Hedrick, J.L.; Prabhu, V.M.; Yi Yan, Y.A.N.G. 2013: Formation of Disk- and Stacked-Disk-like Self-Assembled Morphologies from Cholesterol-Functionalized Amphiphilic Polycarbonate Diblock Copolymers. Macromolecules 46(12): 4839-4846
Wu, P.W.; Gao, L.; Guo, J.K. 2002: Formation of disk-like aggregates of cadmium sulfide nanocrystals at the oil-water interface. Thin Solid Films 408(1-2): 132-135
Koneva, N.A.; Starenchenko, V.A.; Lychagin, D.V.; Trishkina, L.I.; Popova, N.A.; Kozlov, E.V. 2008: Formation of dislocation cell substructure in face-centred cubic metallic solid solutions. Meeting of the International Conference on the Strength of Materials 483-484: 179-183
Niwase, K. 2005: Formation of dislocation dipoles in irradiated graphite. Mater. Sci. Eng. A Struct. Mater. Prop. Microstruct. Proces 400-01: 101-104
Szurgot, M. 1990: Formation of dislocation etch grooves in potassium bichromate crystals. Crystal Research and Technology (1979) 25(1): 71-79
Whang, S.H.; Hahn, Y.D. 1993: Formation of dislocation loop at 800°C in L10 Ti35Al55V10 compound. Philosophical Magazine. A. Physics of Condensed Matter. Defects and Mechanical Properties 68(1): 183-192
Robertson, I.M.; Kirk, M.A.; King, W.E. 1984: Formation of dislocation loops in iron by self-ion irradiations at 40 K - Formation de boucles de dislocations dans le fer par irradiations auto-ioniques à 40 K. Scripta Metallurgica 18(4): 317-320
Turkin, A.A.; Dubinko, V.I. 1994: Formation of dislocation patterns under irradiation : Synergetic ordering in solids. II. Applied Physics. A, Solids and Surfaces 58(1): 35-39
Antonov, P.I.; Bakholdin, S.I.; Krymov, V.M.; Nikanorov, S.P. 1984: Formation of dislocation structure in shaped single crystals during their growth from the melt by Stepanov's method. Crystal Research and Technology (1979) 19(6): 769-779
Auleytner, J.; Morawiec, J. 1993: Formation of dislocations and other types of extended defects by ion implantation. Phys. Status Solidi, A, Appl. Res 138(2): 403-408
Bai, Y.J.; Lu, C.W.; Yu, Z.W. 2002: Formation of dislocations in a CuZnAlMnNi shape memory alloy during training. Materials Science and Engineering. A, Structural Materials : Properties, Microstructure and Processing 323(1-2): 484-486
Ruedl, E.; Valdre, G. 1991: Formation of dislocations, precipitates and cavities in He-implanted Mn-Cr austenitic steels. J. Nucl. Mater 179-81(A): 648-651
Huang, R.Z.; Zhang, L.H.; Sui, M.L.; Wang, Y.M. 2004: Formation of disorder aluminium zones in an immiscible lead-aluminium system. Journal of Physics. Condensed Matter 16(7): 1131-1140
Wu, Y.; Pasero, D.; Mccabe, E.E.; Matsushima, Y.; West, A.R. 2009: Formation of disordered and partially ordered LixCo1-xO. Journal of Material Chemistry 19(10): 1443-1448
Xia, S.K.; Baggiosaitovitch, E.; Rizzo Assuncao, F.C.; Pena Rodriguez, V.A. 1993: Formation of disordered structures in Cr-Fe alloy by mechanical milling. Journal of Physics. Condensed Matter 5(17): 2729-2738
Wu, R.; Liu, S.Q.; Wei, J.Z.; Xia, Y.H.; Han, J.Z.; Wang, C.S.; Du, H.L.; Yang, Y.C.; Yang, J.B. 2013: Formation of Disordered Th2Zn17-Type Sm2Fe17 With Ti and B Additions and Hard Magnetic Properties of Their Nitrides. Ieee Trans. Magn 49(7): 3338-3340
Trotzschel, J.; Pantleon, W.; Haberjahn, M.; Klimanek, P. 1997: Formation of disorientations in aluminium single crystals during hot-compression. Icsma 11: International Conference on the Strength of Materials 234-236: 842-845
Takayama, S.; Takeda, K. 1993: Formation of dispersed phase and interfacial grafted polymer in immisible polymer alloy. Kobunshi Ronbunshu (Tokyo) 50(12): 919-927
Souheng, W.U. 1987: Formation of dispersed phase in incompatible polymer blends: interfacial and rheological effects. Polymer Engineering and Science 27(5): 335-343
Anzel, I.; Kneissl, A.C. 2000: Formation of dispersoids during internal oxidation of rapidly solidified Cu-Al-Zr alloys. Advanced Engineering Materials 2(10): 658-662
Nozakura, T.; Ikeuchi, S. 1984: Formation of dissipative structures in galaxies. The Astrophysical Journal 279(1): 40-52
Milliet, A.; Sozzi, G.; Audier, H.E. 1992: Formation of β-distonic oxonium ions: study of ROCH2CH2OR' radical cations. Organic Mass Spectrometry 27(7): 787-794
Hasegawa, K.; Ohya, M. 1990: Formation of distribution system and information management - Mise en place d'un réseau de distribution et gestion de l'information. Water Nagoya'89 8(3-4): 596-605
Yongjin, W.U.; Strickland, D.W.; Jenkins, T.J.; Peiying, L.I.U.; Burnell, D.J. 1993: Formation of 2,2-disubstituted 1,3-cYclopentanediones from ketals with 1,2-bis(trimethylsilyloxy) cyclobutene. Canadian Journal of Chemistry 71(9): 1311-1318
Miller, A.B.; Dugar, S.; Epperson, J.R. 1987: Formation of 3,3-disubstituted indolenines from intramolecular nitrene reactin with isoquinoline and naphthalene moieties. Heterocycles (Sendai) 25: 217-220
Ando, W.; Hanyu, Y.; Takata, T.; Ueno, K. 1985: Formation of dithia[6] radialenes by boron trifluoride-catalyzed reaction of thiiranoradialenë. Tetrahedron Letters 26(25): 3019-3022
Yonemoto, K.; Shibuya, I.; Honda, K. 1988: Formation of 1,4,2,5-dithiadiazines as a heterocyclic system by reaction of 1,4,2-dithiazolium salts with sulfenamides. Bulletin of the Chemical Society of Japan 61(6): 2232-2234
Fujihara, H.; Kawada, A.; Furukawa, N. 1986: Formation of dithioether dications of cyclic dithioethers in concentrated sulfuric acid. Heterocycles (Sendai) 24(1): 17-20
Henle, W.A.; Ramsey, M.G.; Netzer, F.P.; Horn, K. 1991: Formation of divalent Eu silicides at the Eu-Si(111) interface. Surface Science 254(1-3): 182-190
Le, L.U.O.; Dangling, W.A.N.G.; Chengde, L.I.; Hongbing, J.I.A.N.G.; Yang, C.; Qihuang, G.O.N.G. 2002: Formation of diversiform microstructures in wide-bandgap materials by tight-focusing femtosecond laser pulses. Journal of Optics. A, Pure and Applied Optics 4(1): 105-110
Saswati, G.H.O.S.A.L.; Luke, G.P.; Kyler, K.S. 1987: Formation of 1,3-diynes, 1,3-dienes, and biphenyls via the copper(II) nitrate mediated coupling of organotin compounds. Journal of Organic Chemistry 52(19): 4296-4298
Zhigaltsev, I.V.; Maurer, N.; Edwards, K.; Karlsson, G.; Cullis, P.R. 2006: Formation of dmg-arylsulfonate complexes inside liposomes : A novel approach to improve drug retention. Journal of Controlled Release 110(2): 378-386
Vu, V.T.; Grantham, P.H.; Roller, P.P.; Hankins, W.D.; Wirth, P.J.; Thorgeirsson, S.S. 1986: Formation of DNA adducts from N-acetoxy-2-acetylaminofluorescence and N-hydroxy-2-acetylaminofluorene in rat hemopoietic tissues in vivo. Cancer Research (Baltimore) 46(1): 233-238
Snyderwine, E.G.; Sadrieh, N.; King, R.S.; Schut, H.A.J. 1998: Formation of DNA adducts of the food-derived mutagen 2-amino-9H-pyrido-[2,3-b]indole (A(α)C) and bioassay of mammary gland carcinogenicity in Sprague-Dawley rats. Food and Chemical Toxicology 36(12): 1033-1041
Volpato, M.; Seargent, J.; Loadman, P.M.; Phillips, R.M. 2005: Formation of DNA interstrand cross-links as a marker of mitomycin C bioreductive activation and chemosensitivity. European Journal of Cancer (1990) 41(9): 1331-1338
Sakao, Y.; Ueno, N.; Nakamura, F.; Ito, E.; Hayasi, J.; Hara, M. 2003: Formation of DNA self-assembled monolayer on a gold substrate. Mol. Cryst. Liq. Cryst. (Phila. Pa.: 2003) 407: 141-146
Darinskii, B.M.; Lazarev, A.P.; Sidorkin, A.S.; Kirsch, S.G. 1991: Formation of domain structure in ferroelectric films with free charge carriers. Soviet Physics. Crystallography 36(3): 423-424
Khasnis, D.V.; Le Bozec, H.; Dixneuf, P.H.; Adams, R.D. 1986: Formation of donor-acceptor Fe(0)→Hg(II) bond for the stabilization of carbene-iron(0) complexes: synthesis, characterization, reactivity toward sulfur donor molecules, and X-ray structure of Cl2HgFe(CO)2(PMe2Ph)2(CS2C2(CO2Me)2). Organometallics 5(9): 1772-1777
Jansen, R.; Davis, B.; Tanaka, C.T.; Moodera, J.S. 2000: Formation of doped Al2O3 tunnel barriers by plasma oxidation of δ-doped Al. Surface Science 463(2): 109-114
Kalogera, V.; Belczynski, K.; Kim, C.; Oshaughnessy, R.; Willems, B. 2007: Formation of double compact objects. Physics Reports 442(1-6): 75-108
Suei, Y.; Tanimoto, K.; Ogawa, I.; Wada, T. 1994: Formation of double contour in the human mandibular condyle. Oral Surgery, Oral Medicine, Oral Pathology 77(4): 327-330
Lubin, W.E.I.; Qingru, C.H.E.N.; Yuemin, Z.H.A.O. 2003: Formation of double-density fluidized bed and application in dry coal beneficiation. International Symposium on Dry Coal Cleaning 23(1-2): 21-32
Chou, C.T.; Steeds, J.W. 1993: Formation of double-diffracted higher-order Laue zone lines. Philosophical Magazine. A. Physics of Condensed Matter. Defects and Mechanical Properties 67(5): 1095-1115
Chen, F. 1997: Formation of double-diffusive layers in the directional solidification of binary solution. Journal of Crystal Growth 179(1-2): 277-286
Raadu, M.A.; Chanteur, G. 1986: Formation of double layers: sthocklike solutions of an mKdV-equation. Physica Scripta 33(3): 240-245
Yamaoka, H.; Shigeyama, T.; Nomoto, K. 1993: Formation of double neutron star systems and asymmetric supernova explosions. Astronomy and Astrophysics (Berlin. Print) 267(2): 433-438
Mitskevich, A.S.; Natta, A.; Grinin, V.P. 1993: Formation of double-peaked lines in stochastic winds of T tauri stars. The Astrophysical Journal 404(2): 751-764
Freyer, D.; Fischer, S.; Kohnke, K.; Voigt, W. 1997: Formation of double salt hydrates. I. Hydration of quenched Na2SO4-CaSO4 phases. Solid State Ionics 96(1-2): 29-33
Duhlev, R.; Balaren, C. 1986: Formation of double salts and mixed crystals in the MeBr2-ZnBr2-H2O systems (Me=Mg, Ca, Mn). Revue de Chimie Minerale 23(1): 116-124
Lin, Z.W.; Qi, S.L.; Wu, D.Z. 2012: Formation of Double-Surface-Silvered Polyimide Films via a Direct Ion-Exchange Self-Metallization Technique: The Case of BPADA/ODA and [Ag(NH3)2]+. Journal of Applied Polymer Science 125(5): 3552-3559
Emtsev, V.V.; Mashovets, T.V.; Oganesyan, G.A.; Schmalz, K.; Tybulewicz, A. 1993: Formation of double thermal donors in Cz-Si with different oxygen concentrations. Semiconductors (Woodbury, N.Y.) 27(9): 854-856
Pupyshev, A.A. 2001: Formation of doubly charged atomic ions in an inductively coupled plasma discharge. J. Anal. Chem. (N.Y. Ny) 56(1): 2-7
Mazumdar, S.; Rajgara, F.A.; Marathe, V.R.; Badrinathan, C.; Mathur, D. 1988: Formation of doubly charged CO2+ ions: a combined experimental and theoretical study. Journal of Physics. B. Atomic and Molecular Physics 21(16): 2815-2826
Maas, W.P.M.; Nibbering, N.M.M. 1989: Formation of doubly charged negative ions in the gas phase by collisionally-induced ion pair formation from singly charged negative ions. International Journal of Mass Spectrometry and Ion Processes 88(2-3): 257-266
Someda, K.; Kosugi, N.; Kondow, T.; Kuchitsu, K. 1989: Formation of doubly excited states of HCl in collision with the He(23S1) atom: an SCF-CI calculation of the potential energy surfaces of the He-HCl system. Journal of Physical Chemistry (1952) 93(1): 35-39
Hibino, Y.; Hanafusa, H.; Sakaguchi, S. 1985: Formation of drawing-induced E' centers in silica optical fibers. Jpn. J. Appl. Phys 24(9): 1117-1121
Wadley, R.; Lee, J.G.M.; Wraith, A.E. 2000: Formation of drops at narrow slots in a centrifugal liquid-liquid contactor. Canadian Journal of Chemical Engineering 78(5): 876-883
Mazlovskii, A.A. 1991: Formation of drops during the disintegration of a superheated liquid and their evaporation in a free submerged jet. Colloid Journal of the Ussr 53(2): 321-326
Lee, J.W.; Hong, J.; Mackenzie, J.D.; Abernathy, C.R.; Pearton, S.J.; Ren, F.; Sciortino, P.F. 1997: Formation of dry etched gratings in GaN and InGaN. Journal of Electronic Materials 26(3): 290-293
Petrov Yu, V.; Petrov, V.Y.U.; Parsons, D. 1991: Formation of dtμ mesic molecules via subthreshold resonances. Soviet Physics, Jetp 73(1): 29-39
Li, T.A.N.; Lijing, C.A.O.; Mu, Y.A.N.G.; Ge, W.A.N.G.; Dongbai, S.U.N. 2011: Formation of dual-responsive polystyrene/polyaniline microspheres with sea urchin-like and core-shell morphologies. Polymer (Guildford) 52(21): 4770-4776
Guo, F.Q.; Enouf, S.J.; Poon, S.J.; Shiflet, G.J. 2001: Formation of ductile Al-based metallic glasses without rare-earth elements. Philosophical Magazine Letters 81(3): 203-211
Das, J.; Kim, K.B.; Xu, W.; Loser, W.; Eckert, J. 2007: Formation of ductile ultrafine eutectic structure in Ti-Fe-Sn alloy. Rq 12 : International Conference on Rapidly Quenched and Metastable Materials 449-451: 737-740
Volkel, J. 1989: Formation of dunes and pedogenesis as palaeoclimatic indicators in the eastern part of the Republic of Niger (Sahara and Sahel) - La formation de dunes et la pédogenèse comme indicateurs paléoclimatiques dans la partie orientale de la République du Niger (Sahara et Sahel). Collection Palaeoecology of Africa and the Surrounding Islands 20: 37-54
Albrektsen, B.A.; Furnes, H.; Pedersen, R.B. 1991: Formation of dunites in mantle tectonites, Leka Ophiolite Complex, Norway. J. Geodyn 13(2-4): 205-220
Kozasa, T.; Hasegawa, H.; Nomoto, K. 1989: Formation of dust grains in the ejecta of SN 1987A. The Astrophysical Journal 344(1): 325-331
Kozasa, T.; Hasegawa, H.; Nomoto, K. 1991: Formation of dust grains in the ejecta of SN 1987A. II. Astronomy and Astrophysics (Berlin. Print) 249(2): 474-482
Krechin Yu, V.; Kasimov, A.M.; Orlova, E.A.; Plichko, E.P.; Rovenskii, A.I.; Chalyi, L.G. 1983: Formation of dust in firing refractory parts in tunnel kilns. Refractories (New York) 24(3-4): 156-159
Barnes, J.E.; Hernquist, L. 1992: Formation of dwarf galaxies in tidal tails. Nature (London) 360(6406): 715-717
Konishi, H.; Nohira, T.; Ito, Y. 2002: Formation of Dy-Fe alloy films by molten salt electrochemical process. Electrochimica Acta 47(21): 3533-3539
Zubelewicz, A.; Maudlin, P.J.; Gray, G.T.; Zurek, A.K. 2005: Formation of dynamic defect structure in metals subjected to extreme loading conditions. Physical Review B. Condensed Matter and Materials Physics 71(10): 104107.1-104107.5
Szczurek, M.; Kusnierz, M. 1989: Formation of dynamic gratings by coherent interaction of atomic states and measurement of transverse relaxation time. Optics Communications 74(1-2): 121-123
Xinying, Z.H.A.N.G.; Zhiwei, W.A.N.G.; Zhichao, W.U.; Fenghai, L.U.; Jun, T.O.N.G.; Lili, Z.A.N.G. 2010: Formation of dynamic membrane in an anaerobic membrane bioreactor for municipal wastewater treatment. Chemical Engineering Journal (1996) 165(1): 175-183
Almalack, M.H.; Anderson, G.K. 1996: Formation of dynamic membranes with crossflow microfiltration. Journal of Membrane Science 112(2): 287-296
Rossi, P.; Mignone, A.; Bodo, G.; Massaglia, S.; Ferrari, A. 2008: Formation of dynamical structures in relativistic jets : the FRI case. Astronomy and Astrophysics (Berlin. Print) 488(3): 795-806
Jianbing, Q.I.A.N.G.; Qing, W.A.N.G.; Yingmin, W.A.N.G.; Huogen, H.U.A.N.G.; Jiang, W.U.; Chuang, D.O.N.G. 2007: Formation of e/a-constant phases in the Ti-Zr-Ni-Cu system. Rq 12 : International Conference on Rapidly Quenched and Metastable Materials 449-451: 565-568
Rumanek, I.R.V. 2008: Formation of Early Noh Drama and Legends of Yuzaki - la Formation du Theatre de Nô et les Légendes de Yuzaki. Asian and African Studies (Bratislava) 17(2): 261-289
Naab, T.; Johansson, P.H.; Ostriker, J.P.; Efstathiou, G. 2007: Formation of early-type galaxies from cosmological initial conditions. The Astrophysical Journal 658(2): 710-720
Mandell, A.M.; Raymond, S.N.; Sigurdsson, S. 2007: Formation of earth-like planets during and after giant planet migration. The Astrophysical Journal 660(1): 823-844
Sugiyama, M.; Matsukura, Y. 2002: Formation of earth pillars in Jodo-matsu Park, Kooriyama City, Fukushima, Japan. Annual Report of the Institute of Geoscience, the University of Tsukuba (28): 5-10
Slavinec, M.; Kralj, S.; Zumer, S. 2000: Formation of edge dislocations in the surface constrained smectic a film. Mol. Cryst. Liq. Cryst. Sci. Technol., A Mol. Cryst. Liq. Cryst 351: 153-160
Svetchnikov, V.; Pan, V.; Traeholt, C.; Zandbergen, H. 1997: Formation of edge dislocations in thin epitaxial YBCO films. Ieee Trans. Appl. Supercond 7(2): 1396-1398
Bolkhovityanov, Y.B.; Deryabin, A.S.; Gutakovskii, A.K.; Sokolov, L.V. 2008: Formation of edge misfit dislocations in Gexsi1-x (x∼0.4-0.5) films grown on misoriented (001 ) -> (111) Si substrates. Journal of Crystal Growth 310(15): 3422-3427
Kolelveetil, M.K.; Keller, T.M. 2006: Formation of elastomeric network polymers from ambient heterogeneous hydrosilations of carboranylenesiloxane and branched siloxane monomers. Journal of Polymer Science. Part A. Polymer Chemistry 44(1): 147-155
Low, B.C. 1992: Formation of electric-current sheets in the magnetostatic atmosphere. Astronomy and Astrophysics (Berlin. Print) 253(1): 311-317
Ogawa, K.; Mino, N.; Yamamoto, S.I. 2004: Formation of electric paths in a chemically adsorbed monomolecular layer containing pyrrolyl groups. Thin Solid Films 468(1-2): 240-243
Takamura, S.; Kinoshita, S.; Uesugi, Y. 1991: Formation of electric potential in a tokamak edge by limiter biasing. IEEE Transactions on Plasma Science 19(5): 885-893
Gnatyuk, V.A.; Aoki, T.; Hatanaka, Y.; Vlasenko, O.I. 2005: Formation of electrical contacts on CdTe crystals for X-ray detectors performance. Proc. Spie Int. Soc. Opt. Eng: 59220I.1-59220I.7
Partridge, J.G.; Scott, S.; Dunbar, A.D.F.; Schulze, M.; Brown, S.A.; Wurl, A.; Blaikie, R.J. 2004: Formation of electrically conducting mesoscale wires through self-assembly of atomic clusters. IEEE Transactions on Nanotechnology 3(1): 61-66
Fudouzi, H.; Egashira, M.; Shinya, N. 1997: Formation of electrified images on ceramic substrates using focused ion beam. Nippon Seramikkusu Kyokai Gakujutsu Ronbunshi 105(7): 611-615
Kunfeng, C.H.E.N.; Dongfeng, X.U.E. 2014: Formation of electroactive colloids via in situ coprecipitation under electric field: Erbium chloride alkaline aqueous pseudocapacitor. Journal of Colloid and Interface Science (430): 265-271
Sarukawa, T.; Oyama, N. 2010: Formation of electroactive film on electrode surfaces by electro-oxidation of naphtho[1,8-cd][1,2]dithiole. Journal of Electroanalytical Chemistry (1992) 647(2): 204-210
Kashimura, S.; Murai, Y.; Ishifune, M.; Takatani, A.; Fujita, M.; Nakajima, K.; Sato, E.; Fujimoto, K.; Yamashita, N.; Shono, T. 1997: Formation of electrogenerated base by the electroreduction of polyacrylamides. Electrochimica Acta 42(13-14): 2241-2245
Khobotova, E.B. 1999: Formation of electrolessly deposited and anodic passivating CuCl layers in copper etching. Russian Journal of Electrochemistry 35(5): 579-581
Balakirev, V.A.; Sidelnikov, G.L. 1999: Formation of electromagnetic pulse by aperture antennas. Journal of Communications Technology and Electronics 44(8): 869-876
Zaderii, B.A.; Kotenko, S.S.; Gurevich, S.M.; Shestakov, A.I. 1985: Formation of electron beam welds in 70-260 mm thick slabs of titanium - Aspect des soudures par faisceau d'électrons sur brames en titane de 70 à 260 mm d'épaisseur. Automatic Welding 38(7): 50-53
Last, I.; George, T.F. 1985: Formation of electron-hole pairs in a semiconductor by vibrationally excited molecules. Langmuir 1(1): 33-39
Bekheit, A.H. 2012: Formation of Electron Internal Transport Barrier in Edge Plasma of Small Size Divertor Tokamak. Journal of Fusion Energy 31(1): 38-43
Shimozuma, T.; Kubo, S.; Nagayama, Y.; Takeiri, Y.; Funaba, H.; Muto, S.; Tanakal, K.; Yokoyama, M.; Murakami, S.; Osakabe, M.; Kumazawa, R.; Ashikawa, N.; Idei, H.; Emoto, M.; Goto, M.; Ikeda, K.; Isobe, M.; Kobichi, T.; Liang, Y.; Maisuzaki, S. 2003: Formation of electron internal transport barriers by highly localized electron cyclotron resonance heating in the large helical device. Conference on Plasma Diagnostics for Fusion and Applications (2002) 45(7): 1183-1192
Louarn, P.; Le Queau, D.; Roux, A. 1991: Formation of electron trapped population and conics inside and near auroral acceleration regions. Annales Geophysicae (1988) 9(8): 553-563
Hosono, H.; Miyakawa, M.; Kawazoe, H.; Shimizu, K.I. 1998: Formation of electronic conducting amorphous WO3 thin films by ion implantation. Journal of Non-Crystalline Solids 241(2-3): 190-194
Huawen, L.I.; Guarr, T.F. 1989: Formation of electronically conductive thin films of metal phthalocyanines via electropolymerization. Journal of the Chemical Society. Chemical Communications (13): 832-834
Devore, T.C.; Woodward, J.R.; Le, P.N.; Gole, J.L.; Dixon, D.A. 1990: Formation of electronically excited AgxO from the oxidation of small silver clusters. Journal of Physical Chemistry (1952) 94(2): 756-760
Devore, T.C.; Woodward, J.R.; Gole, J.L. 1989: Formation of electronically excited MnxO from the oxidation of small manganese clusters. Journal of Physical Chemistry (1952) 93(12): 4920-4923
Kajimoto, O.; Honma, K.; Kobayashi, T. 1985: Formation of electronically excited NO and energy partitioning in the 193-nm photolysis of the NO dimer. Journal of Physical Chemistry (1952) 89(13): 2725-2727
Liu, D.K.; Brunschwig, B.S.; Creutz, C.; Sutin, N. 1986: Formation of electronically excited products in electron-transfer reactions: reaction of polypyridine complexes of cobalt(I) and ruthenium(III) in acetonitrile. Journal of the American Chemical Society 108(8): 1749-1755
Wilkinson, J.P.T.; Macdonald, M.; Donovan, R.J. 1983: Formation of electronically excited XeBr by reaction of excited IBr with ground-state Xe. Chemical Physics Letters 101(3): 284-286
Aryee, F.N.A.; Nickerson, M.T. 2012: Formation of electrostatic complexes involving mixtures of lentil protein isolates and gum Arabic polysaccharides. Food Research International 48(2): 520-527
Werber, T.; Zurek, Z. 1986: Formation of elemental silicon inclusions in the sulfide scale on Cu-Si alloys - Formation d'inclusions de silicium élémentaire dans la couche de sulfure sur les alliages Cu-Si. Oxidation of Metals 26(3-4): 287-303
Zepf, S.E. 1997: Formation of elliptical galaxies at moderate redshifts. Nature (London) 390(6658): 377-379
Juodkazis, S.; Yamasaki, K.; Mizeikis, V.; Matsuo, S.; Misawa, H. 2004: Formation of embedded patterns in glasses using femtosecond irradiation. Appl. Phys., A Mater. Sci. Process. (Print) 79(4-6): 1549-1553
Weiske, T.; Hrusak, J.; Bohme, D.K.; Schwarz, H. 1991: Formation of endohedral carbon-cluster noble-gas compounds with high-energy bimolecular reactions : C60Hen+ (n=1, 2). Chemical Physics Letters 186(4-5): 459-462
Wiltner, A.; Linsmeier, C. 2004: Formation of endothermic carbides on iron and nickel. Phys. Status Solidi, A, Appl. Res 201(5): 881-887
Grimm, J.; Kirski, T.; Von Borczyskowski, C. 1986: Formation of energy funnels for triplet energy transport in a chemically mixed molecular crystal. Chemical Physics Letters 128(5-6): 569-576
Shen, S.Q.; Zhang, G.M. 2002: Formation of energy gap in high-dimensional spin-orbital liquids. Europhysics Letters 57(2): 274-280
Felix, J.M.; Gatenholm, P. 1993: Formation of entanglements at brushlike interfaces in cellulose-polymer composites. Journal of Applied Polymer Science 50(4): 699-708
Lippits, D.R.; Rastogi, S.; Talebi, S.; Baillv, C. 2006: Formation of entanglements in initially disentangled polymer melts. Macromolecules 39(26): 8882-8885
Pavlenko Yu, B.; Nechiporenko, E.P.; Chishkala, V.A.; Litovchenko, S.V. 1993: Formation of entectic silicide coating on molybdenum. Poroskovaa Metallurgia (Kiev) (9-10): 48-50
Sasase, M.; Nakanoya, T.; Yamamoto, H.; Hojou, K. 2001: Formation of 'environmentally friendly' semiconductor (β-FeSi2) thin films prepared by ion beam sputter deposition (IBSD) method. Thin Solid Films 401(1-2): 73-76
Hao, L.I.; Bo, P.A.N.; Shaohua, L.I.A.O.; Di, Z.H.A.N.G.; Baoshan, X.I.N.G. 2014: Formation of environmentally persistent free radicals as the mechanism for reduced catechol degradation on hematite-silica surface under UV irradiation. Environmental Pollution (1987) 188: 153-158
Pancera, S.M.; Petri, D.F.S. 2002: Formation of enzymatic biofilms on polymer films and on silicon wafers. Mol. Cryst. Liq. Cryst. Sci. Technol., A Mol. Cryst. Liq. Cryst 374: 611-616
Meurer, R.; Van Riper, G.; Feeney, W.; Cunningham, P.; Hora, D.; Springer, M.S.; Macintyre, D.E.; Rosen, H. 1993: Formation of eosinophilic and monocytic intradermal inflammatory sites in the dog by inejection of human RANTES but not human monocyte chemoattractant protein 1, human macrophage inflammatory protein 1α, or human interleukin 8. The Journal of Experimental Medicine 178(6): 1913-1921
Steeds, J.W.; Russell, F.M.; Vine, W.J. 1993: Formation of epidote fossil positron tracks in mica. Optik (Stuttgart) 92(4): 149-154
Lykhach, Y.; Moroz, V.; Yoshitake, M. 2005: Formation of epitaxial Al2O3/NiAl(1 1 0) films: aluminium deposition. Appl. Surf. Sci 241(1-2): 250-255
Mitra, C.; Raychaudhuri, P.; Dhar, S.K.; Nigam, A.K.; Pinto, R. 2001: Formation of epitaxial and polycrystalline films of the electron doped system La1-xCexMnO3 through pulsed laser deposition. J. Magn. Magn. Mater 226-30: 809-811
Youngjae, K.W.O.N.; Chongmu, L.E.E. 2000: Formation of epitaxial cobalt silicide films on (1 0 0) si using Co/Ti, Co/Nb, and Co/Hf bilayers. Materials Chemistry and Physics 63(3): 202-207
Vantomme, A.; Nicolet, M.A.; Gang, B.A.I.; Fraser, D.B. 1993: Formation of epitaxial CoSi2 on Si(100) : role of the annealing ambient. Applied Physics Letters 62(3): 243-245
Hong, S.; Sonnet, P.; Stauffer, L.; Wetzel, P.; Gewinner, G.; Bolmont, D.; Pirri, C. 1996: Formation of epitaxial CoSix silicide at the Co/CoSi2(111) interface studied by photoemission and band structure calculations. Ecoss-15: European Conference on Surface Science 352-354: 617-621
Kafader, U.; Tuilier, M.H.; Pirri, C.; Wetzel, P.; Gewinner, G.; Bolmont, D.; Heckmann, O.; Chandesris, D.; Magnan, H. 1993: Formation of epitaxial CsCl-type iron silicide on Si(111). Europhysics Letters 22(7): 529-535
Chalker, P.R.; Johnston, C.; Legner, W.; Smith, L.M.; Leese, A.B.; Jones, A.C.; Rushworth, S.A.; Romani, S.; Ayres, C.F.; Buckleygolder, I.M.; Krotz, G.; Angerer, H.; Muller, G.; Veprek, S.; Kunstmann, T. 1995: Formation of epitaxial diamond-silicon carbide heterojunctions. European Conference on Diamond, Diamond like and Related Materials 4(5-6): 632-636
Peto, G.; Molnar, G.; Horvath, Z.E.; Daroczi, C.S.; Zsoldos, E.; Gyulai, J. 2005: Formation of epitaxial erbium-silicide islands on Si(001). Surface Science 578(1-3): 142-148
Grimaldi, M.G.; Franzo, G.; Ravesi, S.; Terrasi, A.; Spinella, C.; La Mantia, A. 1994: Formation of epitaxial γ-FeSi2 and β-FeSi2 layers on (111) Si. Applied Surface Science 74(1): 19-26
Konuma, K.; Vrijmoeth, J.; Zagwijn, P.M.; Frenken, J.W.M.; Vlieg, E.; Van der Veen, J.F. 1993: Formation of epitaxial β-FeSi2 films on Si(001) as studied by medium-energy ion scattering. Journal of Applied Physics 73(3): 1104-1109
Chen, H.C.; Liao, K.F.; Lee, S.W.; Cheng, S.L.; Chen, L.J. 2004: Formation of epitaxial β-FeSi2 nanodots array on strained Si/Si0.8Ge0.2 (001) substrate. Thin Solid Films 461(1): 44-47
Peto, G.; Molnar, G.L.; Horvath, Z.E.; Zsoldos, E.; Khanh, N.Q.; Gyulai, J.; Kanski, J. 1998: Formation of epitaxial HoSi2 layer on Si(100). 1997 Icam/E-Mrs Spring Conference, Symposium B: Epitaxial Thin Film Growth and Nanostructures 318(1-2): 168-171
Petukhov, V.Y.U.; Khaibullin, I.B.; Zaripov, M.M.; Wieser, E.; Grotzschel, R.; Bartsch, H. 1990: Formation of epitaxial NiSi2 by high dose implantation and rapid thermal annealing. Physica Status Solidi. A. Applied Research 117(2): 477-484
Chang, C.S.; Nieh, C.W.; Chen, L.J. 1987: Formation of epitaxial NiSi2 of single orientation on (111) Si inside miniature size oxide openings. Applied Physics Letters 50(5): 259-261
Lyubinetsky, I.; Lea, A.S.; Thevuthasan, S.; Baer, D.R. 2005: Formation of epitaxial oxide nanodots on oxide substrate : Cu2O on SrTiO3(100). Surface Science 589(1-3): 120-128
Funakubo, H.; Imashita, K.; Kieda, N.; Mizutani, N. 1991: Formation of epitaxial Pb(Zr, Ti)O3 film by CVD. Nippon Seramikkusu Kyokai Gakujutsu Ronbunshi 99(3): 248-250
Mantl, S.; Michel, I.; Guggi, D.; Bay, H.L.; Mesters, S. 1993: Formation of epitaxial Si/CoSi2/Si(100) heterostructures using allotaxy. Appl. Surf. Sci 73: 102-107
Prokes, S.M.; Tseng, W.F.; Christou, A. 1988: Formation of epitaxial Si1-xGex films produced by wet oxidation of amorphous SiGe layers deposited on Si(100). Applied Physics Letters 53(25): 2483-2485
Henke, S.; Philipp, M.; Rauschenbach, B.; Stritzker, B. 1996: Formation of epitaxial β-SiC layers by fullerene-carbonization of silicon(001) : a comparison between the use of C60 and C70 molecules. European Materials Research Society 1995 Spring Meeting, Symposium N: Carbon, Hydrogen, and Oxygen in Silicon and in other Elemental Semiconductors 36(1-3): 291-294
Pecz, B.; Makkai, Z.; Pongracz, A.; Barsony, I.; Deak, P.; Josepovits, K.V. 2007: Formation of epitaxial SiC nanocrystals. Surf. Sci 601(13): 2671-2674
Delhaye, G.; El Kazzi, M.; Gaillard, S.; Gendry, M.; Hollinger, G. 2006: Formation of epitaxial strontium oxide and silicate on silicon (001). J. Phys., Iv 132: 285-289
Yan, S.L.; Fang, L.; Song, Q.X.; Yan, J.; Zhu, Y.P.; Chen, J.H.; Zhang, S.B. 1993: Formation of epitaxial Tl2Ba2CaCu2O8 thin films at low temperature in pure argon. Applied Physics Letters 63(13): 1845-1847
Bubendorfer, A.J.; Kemmitt, T.; Campbell, L.J.; Long, N.J. 2003: Formation of epitaxial YBCO thin films by ex-situ processing of a polymerized complex. Ieee Trans. Appl. Supercond 13(2): 2739-2742
Siegal, M.P.; Kaatz, F.H.; Graham, W.R.; Santiago, J.J.; Van der Spiegel, J. 1989: Formation of epitaxial yttrium silicide on (111) silicon. Journal of Applied Physics 66(7): 2999-3006
Shimura, T.; Hosoi, T.; Fukuda, K.; Umeno, M.; Ogura, A. 2002: Formation of epitaxially ordered SiO2 in oxygen-implanted silicon during thermal annealing. Journal of Crystal Growth 236(1-3): 37-40
Roche, A.A.; Bouchet, J.; Bentadjine, S. 2002: Formation of epoxy-diamine/metal interphases. International Journal of Adhesion and Adhesives 22(6): 431-441
Yuchun, W.A.N.G.; Doyle, F.M. 1999: Formation of epoxy skin layers on the surface of supported liquid membranes containing polyamines. Journal of Membrane Science 159(1-2): 167-175
Corey, E.J.; Schmidt, G.; Shimoji, K. 1983: Formation of α, β-epoxy systems from β-peroxy carbon free radicals. Tetrahedron Letters 24(31): 3169-3170
Hill, D.; Banerjee, R.; Huber, D.; Tiley, J.; Fraser, H.L. 2005: Formation of equiaxed alpha in TiB reinforced Ti alloy composites. Scripta Materialia 52(5): 387-392
Murakami, K.; Okamoto, T. 1984: Formation of equiaxed zone in castings - Formation de la zone équiaxe dans les pièces moulées. Metal Science 18(1): 103-111
Bekrenev, A.N.; Borkin, A.G.; Drobyazko, S.V.; Portiov, V.V. 1989: Formation of equiaxial structure during laser melting of high-speed steel. Metallofizika (Kiev) 11(3): 120-121
Kervalishvili, N.A. 1994: formation of equilibrium density profile in a nonneutral electron plasma in crossed E⊥H fields. Physics Letters. a 188(2): 170-174
Sung Soo, K.I.M.; Yoon, D.N. 1983: Formation of etch boundaries at the interface of Mo grains and a liquid Ni―Fe matrix during cyclic annealing - Formation de joints d'attaque à l'interface de grains de Mo et d'une matrice liquide Ni-Fe pendant le recuit cyclique. Metallography 16(3): 249-253
Sugawara, S.; Watanabe, J. 1999: Formation of etch hillocks on white-tin crystals. Nippon Kinzoku Gakkaishi (1952) 63(8): 1002-1008
Prinz, D.; Riekert, L. 1988: Formation of ethene and propene from methanol on zeolite ZSM-5. I: Investigation of rate and selectivity in a batch reactor. Applied Catalysis 37(1-2): 139-154
Hammon, U.; Kotter, M.; Riekert, L. 1988: Formation of ethene and propene from methanol on zeolite ZSM-5. II: Preparation of finished catalysts and operation of a fixed-bed pilot plant. Applied Catalysis 37(1-2): 155-174
Gierer, J.; Wannstrom, S. 1986: Formation of ether bonds between lignins and carbohydrates during alkaline pulping processes. Holzforschung 40(6): 347-352
Fujisaka, T.; Nojima, M.; Kusabayashi, S. 1985: Formation of ethers from ozonides by reductive cleavage of the two C-O bonds of the peroxide bridge. Journal of Organic Chemistry 50(2): 275-277
Albanesi, G.; Moggi, P. 1988: Formation of 2-ethyl acrolein by gas phase aldol condensation. Applied Catalysis 37(1-2): 315-322
Yamamura, S.; Kojima, H.; Iyoda, J.; Kawai, W. 1987: Formation of ethyl alcohol in the photocatalytic reduction of carbon dioxide by SiC and ZnSe/metal powders. Journal of Electroanalytical Chemistry and Interfacial Electrochemistry 225(1-2): 287-290
Manivannan, R.; Pandurangan, A. 2009: Formation of ethyl benzene and styrene by side chain methylation of toluene over calcined LDHs. Applied Clay Science 44(1-2): 137-143
Lokhande, H.T.; Thakare, A.M.; Patil, N.B.; Chidambareswaran, P.K.; Warrier, J.K.S. 1990: Formation of ethylenediamine-cellulase complexes by vapor-phase treatment. Journal of Polymer Science. Polymer Letters Edition 28(1): 21-23
Christensen, A.N.; Jensen, T.R.; Hanson, J.C. 2004: Formation of ettringite, Ca6Al2(SO4)3(OH)12.26H2O, Aft, and monosulfate, Ca4Al2O6(SO4).14H2O, Afm-14, in hydrothermal hydration of Portland cement and of calcium aluminum oxide: calcium sulfate dihydrate mixtures studied by in situ synchrotron X-ray powder diffraction. Journal of Solid State Chemistry 177(6): 1944-1951
Clark, B.A.; Brown, P.W. 1999: Formation of ettringite from monosubstituted calcium sulfoaluminate hydrate and gypsum. Journal of the American Ceramic Society 82(10): 2900-2905
Norby, P.; Hanson, J.C.; Fitch, A.N.; Vaughan, G.; Flaks, L.; Gualtieri, A. 2000: Formation of α-eucryptite, LiAlSiO4: An in-situ synchrotron X-ray powder diffraction study of a high temperature hydrothermal synthesis. Chemistry of Materials 12(5): 1473-1479
Liang, Z.H.E.N.G. 2005: Formation of eutectic (γ' + α) and α transformation in Ta-bearing high W content cast Ni-base superalloys. Scripta Materialia 53(8): 943-948
Chichko, A.N.; Yurkevich, N.P.; Sobolev, V.F.; Kasparov, K.N. 1994: Formation of eutectic in an aluminum-silicon system. Russian Journal of Physical Chemistry 68(4): 543-546
Alexander, D.T.L.; Greer, A.L. 2004: Formation of eutectic intermetallic rosettes by entrapment of liquid droplets during cellular columnar growth. Acta Materialia 52(20): 5853-5861
Aso, S.; Ogi, K. 1991: Formation of eutectic structure and behavior of solute elements in solidification of 25% Cr white xast irons containing 1-2% B. Imono 63(10): 823-829
Perron, J.T.; Kirchner, J.W.; Dietrich, W.E. 2009: Formation of evenly spaced ridges and valleys. Nature (London) 460(7254): 502-505
Rogulich, V.S.; Starodub, V.P.; Shevera, V.S. 1990: Formation of excimer molecules in a continuous plasma jet. Optics and Spectroscopy 69(4): 450-451
Oyama, M.; Mitani, M.; Okazaki, S. 2000: Formation of π-excimer or π-exciplex in electrogenerated chemiluminescence involving perylene molecule revealed using a dual-electrolysis stopped-flow method. Electrochemistry Communications 2(5): 363-366
Miyazaki, T.; Nagasaka, S.; Kamiya, Y.; Tanimura, K. 1993: Formation of excited OH radicals in high-energy-electron-irradiated ice at very low temperature. Journal of Physical Chemistry (1952) 97(41): 10715-10719
Brako, R.; Newns, D.M.; Tolk, N.H.; Tully, J.C.; Morris, R.J. 1986: Formation of excited states of hydrogen atoms scattered from metal surfaces. Physics Letters. a 114(6): 327-330
Vasileva, E.K.; Morozov, S.N. 1992: Formation of excited states of vanadium and titanium atoms during sputtering. Optics and Spectroscopy 73(4): 396-398
Siantidis, K.; Wolterink, T.; Axt, V.M.; Kuhn, T. 2002: Formation of excitons from correlated electron-hole pairs. Physica, B Condens. Matter 314(1-4): 220-223
Oh, I.K.; Singh, J. 2001: Formation of excitons from free electron-hole pairs due to acoustic phonon interactions in quantum wells. Superlattices and Microstructures 30(5): 221-229
Hayashi, S.; Takagi, S.; Yamagata, R.; Narita, T.; Ukai, S. 2012: Formation of Exclusive Al2O3 Scale on Nb and Nb-Rich Alloys by Two-Step Oxygen―Aluminum Diffusion Process. Oxidation of Metals 78(3-4): 167-178
Krylova, I.V. 1994: Formation of exoemission centers on industrial iron catalysts. Russian Journal of Physical Chemistry 68(1): 29-32
Tateyama, H.; Tsunematu, K.; Noma, H.; Adachi, Y.; Takeuchi, H.; Kohyama, N. 1996: Formation of expandable mica from talc using the intercalation procedure. Journal of the American Ceramic Society 79(12): 3321-3324
Martirosyan, A.E. 2010: Formation of expanded smooth quasi-Bessel beam range due to the transformation of the Gaussian beam in absorbing axicon. Optics and Laser Technology 42(2): 328-331
Schuddeboom, W.; Scherer, T.; Warman, J.M.; Verhoeven, J.W. 1993: Formation of extended and folded charge separated states of donor-spacer-acceptor molecules with flexible and semirigid σ-bond spacers. Journal of Physical Chemistry (1952) 97(50): 13092-13098
Kawamoto, T.; Konno, T. 2002: Formation of extended π electron system based on nickel(II) complex with non-innocent N2S2 ligand. Mol. Cryst. Liq. Cryst. Sci. Technol., A Mol. Cryst. Liq. Cryst 379: 443-448
Mccarthy, E.D.; Zammarano, M.; Fox, D.M.; Nieuwendaal, R.C.; Kim, Y.S.; Maupin, P.H.; Trulove, P.C.; Gilman, J.W. 2013: Formation of extended ionomeric network by bulk polymerization of L,D-lactide with layered-double-hydroxide. Polymer (Guildford) 54(1): 90-101
Kosareva, O.G.; Grigorevskii, A.V.; Kandidov, V.P. 2005: Formation of extended plasma channels in a condensed medium upon axicon focusing of a femtosecond laser pulse. Quantum Electronics (Woodbury) 35(11): 1013-1014
Krull, C.; Valencia, S.; Pascual, J.I.; Theis, W. 2009: Formation of extended straight molecular chains by pairing of thymine molecules on the Ag-Si(111) surface. Applied Physics. A, Materials Science and Processing 95(1): 297-301
Marecki, B.; Lewandowski, J.; Jakubowicz, M. 1990: Formation of extensor digitorum muscle proportions before and after birth. Jahrbuch für Morphologie und Mikroskopische Anatomie 1. Abteilung, Gegenbaurs Morphologisches Jahrbuch 136(6): 735-751
Dhaliwal, R.S.; Singh, B.M. 1984: Formation of external circular crack by normal impact or by sudden twisting. Engineering Fracture Mechanics 20(1): 93-101
Duda, V.I.; Lebedinskii, A.V.; Dmitriev, V.V.; Suzina, N.E.; Shorokhova, A.P.; Mityushina, L.L. 1999: Formation of extracellular gas balloons in colonies of some gram-negative bacteria. Microbiology (New York) 68(1): 69-76
Elias, A.N.; Foda, M.S.; Attia, L.A. 1983: Formation of extracellular polygalacturonase and pectinmethylestrase activities by fungi and yeasts. Egyptian Journal of Microbiology 18(1-2): 225-228
Haggag, A.; Sanad, W.; Tadros, N. 1985: Formation of extractable species from metal sulfate and amine chlorides. Studies on Fe, In and Zn. Journal of Radioanalytical and Nuclear Chemistry 88(2): 193-199
Zangl, G. 2005: Formation of extreme cold-air pools in elevated sinkholes: An idealized numerical process study. Monthly Weather Review 133(4): 925-941
Alodzhants, A.P.; Arakelyan, S.M.; Ter Haar, D. 1993: Formation of extreme (squeezed) states for laser pulses and beams in Bragg diffraction of light in a spatially periodic nonlinear medium. Journal of Experimental and Theoretical Physics 76(3): 445-458
Miyasaka, H.; Kotani, S.; Ota, T.; Itaya, A. 2001: Formation of extremely long-lived charge-separated state by two-photon ionization in poly(N-vinylcarbazole) adsorbed on a macroreticular resin. Chemical Physics Letters 335(5-6): 496-502
Stareev, G. 1993: Formation of extremely low resistance Ti/Pt/Au ohmic contacts to p-GaAs. Applied Physics Letters 62(22): 2801-2803
Walther, S.R.; Mehta, S.; Jeong, U.; Lenoble, D. 2004: Formation of extremely shallow junctions for sub-90 nm devices. Surf. Coat. Technol 186(1-2): 68-72
Hulme, J.; Jha, A.; Parker, J.M.; Whitehouse, A.W. 1989: Formation of far infrared transmitting AgI-CsI glasses. Physics and Chemistry of Glasses 30(6): 254-259
Dittes, F.M.; Harney, H.L.; Rotter, I. 1991: Formation of fast and slow decay modes in N-level systems coupled to one open channel. Physics Letters. a 153(8-9): 451-455
Koide, S.; Sakai, J. 1994: Formation of fast magnetosonic shock waves during a two-current-loop collision in solar flares. Solar Physics 151(1): 137-145
Spanjers, G.; Nelson, B.A.; Ribe, F.L. 1991: Formation of fast notched current waveforms through a high inductance. Review of Scientific Instruments 62(10): 2338-2341
Yoshida, A.; Inoue, K. 1986: Formation of faujasite-type zeolite from ground Shirasu volcanic glass. Zeolites 6(6): 467-473
Zhang, D.L.; Ying, D.Y. 2001: Formation of fcc titanium during heating high-energy, ball-milled Al-Ti powders. Materials Letters (General Ed.) 50(2-3): 149-153
Zhang, D.L.; Ying, D.Y. 2002: Formation of fcc titanium during heating high energy ball milled Al-Ti powders. Materials Letters (General Ed.) 52(4-5): 329-333
Yamashita, H.; Yoshikawa, M.; Funabiki, T.; Yoshida, S.; Isozui, Y. 1987: Formation of γ-Fe as the metastable phase of amorphous Fe83B17 powder alloy - Formation de Fe-γ comme une phase métastable de l'alliage pulvérisé Fe83B17. Journal of Applied Physics 62(2): 726-729
Hernando, A.; Crespo, P.; Yavari, A.R.; Garciaescorial, A.; Barandiaran, J.M. 1993: Formation of γ- Fe by mechanical alloying of Cu-Fe ?. Ieee Trans. Magn 29(6): 2634-2636
Teplov, V.A.; Pilyugin, V.P.; Chernyshov, E.G.; Gaviko, V.S.; Kleinerman, N.M.; Serikov, V.V. 1997: Formation of Fe-Cu and Fe-Bi nonequilibrium solid solutions upon large plastic deformation and subsequent heating. Physics of Metals and Metallography 84(3): 256-264
Zhu, H.H.; Fuh, J.Y.H.; Lu, L. 2003: Formation of Fe-Cu metal parts using direct laser sintering. Proceedings of the Institution of Mechanical Engineers. Part C, Journal of Mechanical Engineering Science 217(1): 139-147
Langumier, M.; Sabot, R.; Obamendong, R.; Jeannin, M.; Sable, S.; Refait, P. 2009: Formation of Fe(III)-containing mackinawite from hydroxysulphate green rust by sulphate reducing bacteria. Corrosion Science 51(11): 2694-2702
Hadjipanayis, G.C.; Tao, Y.F.; Gudimetta, K. 1985: Formation of Fe14La2B phase in as-cast and melt-spun samples - Formation d'une phase Fe14La2B dans des échantillons bruts de coulée et filés à l'état liquide. Applied Physics Letters 47(7): 757-758
Watanabe, Y.; Nozaki, H.; Kato, M.; Sato, A. 1991: Formation of Fe16N2 and development of magnetic anisotropy in A Fe-N alloy. Acta Metallurgica et Materialia 39(12): 3161-3166
Jiang, H.; Yao, Z.; Huang, D.; Qin, F.; Liu, Z.; Tao, K.; Li, H. 1996: Formation of Fe-N films containing Fe16N2 phase by ion beam assisted deposition. Thin Solid Films 274(1-2): 63-65
Tsubakino, H.; Ando, M.; Yamamoto, A.; Fukumoto, S.; Terasawa, N.; Mitamura, T. 1998: Formation of Fe16N2 in iron sheet by an ion implantation method. Mater. Chem. Phys 54(1-3): 301-304
Zhiyu, X.I.A.O.; Cuiyong, T.A.N.G.; Leo Ngai, T.; Chao, Y.A.N.G.; Yuanyuan, L.I. 2012: Formation of Fe-Nb-X (X=Zr, Ti) amorphous alloys from pure metal elements by mechanical alloying. Physica. B, Condensed Matter 407(2): 258-262
Music, S.; Gotic, M.; Popovic, S.; Czakonagy, I. 1994: Formation of γ-Fe2O3 by thermal decomposition of a mixture of Fe(II)- and FE(III)-oxalate salts. Materials Letters (General Ed.) 20(3-4): 143-148
Cao, S.W.; Zhu, Y.J.; Zeng, Y.P. 2009: Formation of γ-Fe2O3 hierarchical nanostructures at 500 °C in a high magnetic field. Journal of Magnetism and Magnetic Materials 321(19): 3057-3060
Zhang, W.; Che, R.; Takeguchi, M.; Shimojo, M.; Furuya, K. 2006: Formation of Fe-Pt intermetallic phase in nanostructures by electron-beam-induced deposition and postdeposition alloying processes. Surf. Interface Anal 38(12-13): 1527-1529
Rong, C.B.; Nandwana, V.; Poudyal, N.; Yang, L.I.; Ping Liu, J.; Yong, D.I.N.G.; Zhong Lin, W.A.N.G. 2007: Formation of Fe3Pt phase in FePt-based nanocomposite magnets. Journal of Physics. D, Applied Physics 40(3): 712-716
Pipino, A.; Dercole, A.; Matteucci, F. 2008: Formation of [α/Fe] radial gradients in the stars of elliptical galaxies. Astronomy and Astrophysics (Berlin. Print) 484(3): 679-691
Nishio, Y.; Ozawa, M. 2009: Formation of featured nano-structure in thermal stable La-doped alumina composite catalyst. J. Alloys Compd 488(2): 546-549
Collins, G.S.; Meeves, B.H. 1993: Formation of FeCo by mechanical alloying. Scripta Metallurgica et Materialia 29(10): 1319-1323
Nakayanagi, M. 1996: Formation of FeCO3 scale layer and corrosion of carbon steel in CO-loaded aqueous alkanolamine solutions. Sekiyu Gakkai Shi 39(5): 322-329
Yanez, R.; Ros, J.; Moldes, I.; Mathieu, R.; Solans, X.; Fontbardia, M. 1990: Formation of [FeeM(η-C5H5)(CO)4(μ-CO)(μ-CR=CR'H)] (M=Fe or Ru) complexes from the reaction of [MH(η-C5H5)(CO)2] with [Fe2(CO)9] and acetylens. X-ray structure of [FeRu(η-C5H5)(CO)4(μ-CO)(μ-CPh=CPhH)]. Journal of the Chemical Society. Dalton Transactions (10): 3147-3150
Kurilkina, S.; Ryzhevich, A.; Bushuk, S.; Solonevich, S. 2007: Formation of femtosecond Bessel and conical beams using axicon. Proc. Spie Int. Soc. Opt. Eng: 67290E.1-67290E.7
Derrien, T.J.Y.; Torres, R.; Sarnet, T.; Sentis, M.; Itina, T.E. 2012: Formation of femtosecond laser induced surface structures on silicon: Insights from numerical modeling and single pulse experiments. E-Mrs 2011 Spring Meeting. Symposium J: Laser Materials Processing for Micro and Nano Applications 258(23): 9487-9490
Kozhitov, L.V.; Kostikova, A.V.; Kozlov, V.V.; Bulatov, M.F. 2012: Formation of FeNi3/C Nanocomposite from Fe and Ni Salts and Polyacrylonitrile Under IR-Heating. Journal of Nanoelectronics and Optoelectronics 7(4): 419-422
Seungwon, L.E.E.; Edalati, K.; Iwaoka, H.; Horita, Z.; Ohtsuki, T.; Ohkochi, T.; Kotsugi, M.; Kojima, T.; Mizuguchi, M.; Takanashi, K. 2014: Formation of FeNi with L1o-ordered structure using high-pressure torsion. Philosophical Magazine Letters 94(10-12): 639-646
Refait, P.; Benali, O.; Abdelmoula, M.; Genin Jm, R. 2003: Formation of'ferric green rust' and/or ferrihydrite by fast oxidation of iron(II-III) hydroxychloride green rust. Corrosion Science 45(11): 2435-2449
Ghasemi Banadkouki, S.S.; Dunne, D.P. 2006: Formation of ferritic products during continuous cooling of a Cu-bearing HSLA steel. Isij International 46(5): 759-768
Aizawa, K.; Ishiwara, H. 1992: Formation of ferroelectric BaMgF4 films on GaAs substrates. Jpn. J. Appl. Phys 31(9B): 3232-3234
Ohigashi, H.; Kagami, N.; Li, G.R. 1992: Formation of ferroelectric domains in a copolymer P(VDF-TrFE). Journal of Applied Physics 71(1): 506-508
Kaynts, D.I.; Shpak, A.P.; Rubish, V.M.; Mykaylo, O.A.; Guranich, O.G.; Shtets, P.P.; Guranich, P.P. 2008: Formation of Ferroelectric Nanostructures in (As2S3)100-x(SbSI)x Glassy Matrix. Ferroelectrics (Print) 371: 28-33
Stone, A.; Sakakura, M.; Shimotsuma, Y.; Stone, G.; Gupta, P.; Miura, K.; Hirao, K.; Dierolf, V.; Jain, H. 2010: Formation of ferroelectric single-crystal architectures in LaBGeO5 glass by femtosecond vs. continuous-wave lasers. J. Non-Cryst. Solids 356(52-54): 3059-3065
Wang, C.H.U.N.H.U.A.; Chen, Y.O.N.G.H.A.I.; Guo, Y.U.; Wang, Z.H.A.N.G.U.O. 2004: Formation of ferromagnetic clusters in GaAs matrix and GaAs/AlGaAs superlattice through Mn ion implantation at two different temperatures. Journal of Crystal Growth 268(1-2): 12-17
Myagkov, V.G.; Zhigalov, V.S.; Matsynin, A.A.; Bykova, L.E.; Mikhlin, Y.L.; Bondarenko, G.N.; Patrin, G.S.; Yurkin, G.Y. 2014: Formation of ferromagnetic germanides by solid-state reactions in 20Ge/80Mn films. Thin Solid Films 552: 86-91
Nakajima, K.; Okamoto, S.; Okada, T. 1989: Formation of ferromagnetic iron nitrides in iron thin films by high-dose nitrogen ion implantation. Journal of Applied Physics 65(11): 4357-4361
Prokes, S.M.; Carlos, W.E.; Seals, L.; Lewis, S.; Gole, J.L. 2002: Formation of ferromagnetic Ni/SiO2 nanospheres. Materials Letters (General Ed.) 54(1): 85-88
Hemmingsen, T.; Vangdal, H.; Valand, T. 1992: Formation of ferrous sulfide film from sulfite on steel under anaerobic conditions. Corrosion (Houston, Tex.) 48(6): 475-481
Rana, S.; Tamagake, K. 2005: Formation of ferryl porphyrin by electrochemical reduction of iron porphyrin in aqueous solution. Journal of Electroanalytical Chemistry (1992) 581(2): 145-152
Bajdor, K.; Nakamoto, K. 1984: Formation of ferryltetraphenylporphyrin by laser irradiation. Journal of the American Chemical Society 106(10): 3045-3046
Winkler, K.; Krogulec, T.; Galus, Z. 1985: Formation of FeS and its effect on the electrode reactions of the Fe(II)/Fe system in thiocyanate solutions at mercury electrodes. Electrochimica Acta 30(8): 1055-1062
Li, Y.U.Z.H.I.; Zhu, C.H.E.N.H.U.I.; Zhu, S.A.N.Y.U.A.N.; Liu, X.I.A.N.M.I.N.G.; Li, G.O.N.G.P.U. 2002: Formation of β-FeSi2 and the remanent α-Fe. Journal of Physics. Condensed Matter 14(21): 5449-5458
Wagner, S.; Carpene, E.; Schaaf, P.; Weisheit, M. 2002: Formation of β-FeSi2 by excimer laser irradiation of 57Fe/Si bilayers. Appl. Surf. Sci 186(1-4): 156-161
Kojima, T.; Masumoto, K.; Okamoto, M.A.; Nishida, I. 1990: Formation of β-FeSi2 from ,the sintered eutectic alloy FeSi-Fe2Si5 doped with cobalt. Journal of the Less-Common Metals 159: 299-305
Tanaka, M.; Kumagai, Y.; Suemasu, T.; Hasegawa, F. 1997: Formation of β-FeSi2 layers on Si(001) substrates. Jpn. J. Appl. Phys 36(6A): 3620-3624
Oyoshi, K.; Lenssen, D.; Carius, R.; Mantl, S. 2001: Formation of β-FeSi2 precipitates at the SiO2/Si interface by Fe+ ion implantation and their structural and optical properties. Thin Solid Films 381(2): 202-208
Zhengxin, L.I.U.; Osamura, M.; Ootsuka, T.; Kuroda, R.; Makita, Y.; Tanoue, H.; Fukuzawa, Y.; Otogawa, N.; Nakayama, Y. 2006: Formation of β-FeSi2 thin films on non-silicon substrates. Thin Solid Films 515(4): 1532-1538
Komuro, S.; Katsumata, T.; Morikawa, T.; Kokai, H.; Zhao, X.; Aoyagi, Y. 2002: Formation of β-FeSi2 thin films using laser ablation. J. Cryst. Growth 237-39: 1961-1965
Araki, T.; Hirose, A.; Matsuhiro, Y.; Kotoh, M.; Tomita, S. 1991: Formation of fiber-matrix reaction zone and fracture morphology of SiC/Ti-6Al-4V composite material. Zairyo 40(453): 682-688
Radmilovic, V.; Dahmen, U.; Di, G.A.O.; Stoldt, C.R.; Carraro, C.; Maboudian, R. 2007: Formation of <111> fiber texture in β-SiC films deposited on Si(100) substrates. Diamond and Related Materials 16(1): 74-80
Glagolev, M.K.; Vasilevskaya, V.V.; Khokhlov, A.R. 2011: Formation of Fibrillar Aggregates in Concentrated Solutions of Rigid-Chain Amphiphilic Macromolecules with Fixed Torsion and Bend Angles. Polymer Science. Series A, Chemistry, Physics 53(8): 733-743
Sakellarides, S.L.; Mchugh, A.J. 1987: Formation of fibrous crystals in flowing blends of polyethylene melts. Rheologica Acta 26(1): 64-77
Kobashi, K.; Tachibana, T.; Yokota, Y.; Kawakami, N.; Hayashi, K.; Inoue, K. 2001: Formation of fibrous structures on diamond by hydrogen plasma treatment under DC bias. Diamond and Related Materials 10(11): 2039-2043
Kobashi, K.; Tachibana, T. 2001: Formation of fibrous structures on glass-like carbon by hydrogen plasma treatment under DC bias. Carbon (New York) 39(2): 303-306
Hoffman, A.L.; Milroy, R.D.; Slough, J.T.; Steinhauer, L.C. 1986: Formation of field reversed configurations using scalable, low-voltage technology. Fusion Technology 9(1): 48-57
Kuzovlev Yu, E.; Soboleva, T.K.; Filippov, A.E.; Parsons, D. 1993: Formation of filamentary' structures during nucleation. Jetp Letters 58(5): 357-362
Wang, H.Y.; Ruckenstein, E. 2002: Formation of filamentous carbon during methane decomposition over Co-MgO catalysts. Carbon (New York) 40(11): 1911-1917
Zaikovskii, V.I.; Chesnokov, V.V.; Buyanov, R.A.; Plyasova, L.M. 2000: Formation of filamentous carbon from 1,3-butadiene over a Ni-Pd/Al2O3 catalyst. Kinetics and Catalysis 41(4): 538-545
Takenaka, S.; Serizawa, M.; Otsuka, K. 2004: Formation of filamentous carbons over supported Fe catalysts through methane decomposition. Journal of Catalysis 222(2): 520-531
De Gouveia, D.A.L. P.I.N.O. E. M.; Opher, R. 1989: Formation of filaments in the Crab Nebula by a thermal synchrotron instability. Monthly Notices of the Royal Astronomical Society 240(3): 573-590
Bormashenko, E.; Musin, A.; Bormashenko, Y.; Whyman, G.; Pogreb, R.; Gendelman, O. 2007: Formation of films on water droplets floating on a polymer solution surface. Macromolecular Chemistry and Physics 208(7): 702-709
Martyanov, V.V. 2008: Formation of Filtration Fields Close to Near-Surface Radwaste Repositories. Atomic Energy (New York, N.Y.) 105(6): 430-435
Taimatsu, H.; Wada, K.; Kaneko, H. 1992: Formation of fine aggregate structure by solid-state displacement reaction of Ti with CoO or NiO. Nippon Kinzoku Gakkaishi (1952) 56(9): 1043-1049
Yokoya, S.; Takagi, S.; Iguchi, M.; Marukawa, K.; Hara, S. 2000: Formation of fine bubble through swirling motion of liquid metal in the metallurgical container. Isij International 40(6): 572-577
Donhg Hyuk, S.H.I.N.; Park, K.T.; Kim, Y.S. 2003: Formation of fine cementite precipitates in an ultra-fine grained low carbon steel. Scripta Materialia 48(5): 469-473
Keehyun, K.I.M. 2014: Formation of Fine Clusters in High-Temperature Oxidation of Molten Aluminum. Metallurgical and Materials Transactions. A, Physical Metallurgy and Materials Science 45(8): 3650-3660
Maeda, K.; Tohara, A.; Asakuma, Y.; Fukui, K. 2009: Formation of fine crystals of potassium chloride dissolved in aqueous ethanol solution by spray evaporation. Chemical Engineering and Processing 48(7): 1270-1273
Jie, X.I.N.G.; Soda, H.; Xuyue, Y.A.N.G.; Miura, H.; Sakai, T. 2004: Formation of fine grained structure in a magnesium alloy AZ31 during multi-directional forging with decreasing deformation temperature. Keikinzoku 54(11): 527-531
Jain, M.; Christman, T. 1996: Formation of fine nanocrystalline microstructure in bulk Fe-28Al-2Cr. Nanostructured Materials 7(7): 719-723
Ohmi, T.; Minoguchi, K.; Kudoh, M.; Itoh, Y.; Matsuura, K.; Ishii, K. 1994: Formation of fine primary silicon crystals by mixing of semi-solid slurry of hypoeutectic Al-Si alloy and phosphorus-added hypereutectic Al-Si alloy melt. Nippon Kinzoku Gakkaishi (1952) 58(3): 324-329
Yamauchi, I.; Kawamura, H.; Nakano, K.; Tanaka, T. 2005: Formation of fine skeletal Co-Ag by chemical leaching of Al-Co-Ag ternary alloys. Journal of Alloys and Compounds 387: 187-192
Ponomarev Yu, V.; Savelev, A.B. 1990: Formation of fine structure of x-ray spectra in total external reflection from a nonideal interface. Soviet Physics. Technical Physics 35(8): 929-933
Suzuki, P.; Takei, H.; Yamazaki, S. 1989: Formation of fine three-phase emulsions by the liquid crystal emulsification method with arginine β-branched monoalkyl phosphate. Journal of Colloid and Interface Science 129(2): 491-500
Sato, M.; Kondo, S.; Uwaha, M. 2011: Formation of finger-like step patterns on a Si(111) vicinal face. J. Cryst. Growth 318(1): 14-17
Lin, S.P. 1984: Formation of fingering flow structure in sedimentation of bidisperse suspensions. Chemical Engineering Communications 29(1-6): 201-208
Nair, S.; Banerjee, A. 2004: Formation of finite antiferromagnetic clusters and the effect of electronic phase separation in Pr0.5Ca0.5Mn0.975Al0.025O3. Physical Review Letters 93(11): 117204.1-117204.4
Renyue, C.E.N. 2005: Formation of first stars triggered by collisions and shock waves : Prospect for high star formation efficiency and high ionizing photon escape fraction. The Astrophysical Journal 624(2): 485-490
Hyun, S.; Jeong, J.; Kim, W.; Oh, J.J. 2007: Formation of five-dimensional string solutions from gravitational collapse. Classical and Quantum Gravity 24(13): 3465-3478
Myasnichenko, V.S.; Starostenkov, M.D. 2012: Formation of fivefold axes in the FCC-metal nanoclusters. Appl. Surf. Sci 260: 51-53
Awad, M.A.; De Jager, A. 2002: Formation of flavonoids, especially anthocyanin and chlorogenic acid in 'Jonagold' apple skin: influences of growth regulators and fruit maturity. Scientia Horticulturae 93(3-4): 257-266
Mota, A.; Novak, P.; Macieira, F.; Vicente, A.A.; Teixeira, J.A.; Smogrovicova, D.; Branyik, T. 2011: Formation of Flavor-Active Compounds During Continuous Alcohol-free Beer Production: The Influence of Yeast Strain, Reactor Configuration, and Carrier Type. Journal of the American Society of Brewing Chemists 69(1): 1-7
Vandecan, S.M.G.; Daems, N.; Schouppe, N.; Saison, D.; Delvaux, F.R. 2011: Formation of Flavor, Color, and Reducing Power During the Production Process of Dark Specialty Malts. Journal of the American Society of Brewing Chemists 69(3): 150-157
Weizhi, W.A.N.G.; Shenglin, X.I.O.N.G.; Liyong, C.H.E.N.; Baojuan, X.I.; Hongyang, Z.H.O.U.; Zude, Z.H.A.N.G. 2006: Formation of flexible Ag/C coaxial nanocables through a novel solution process. Crystal Growth and Design 6(11): 2422-2426
Lindgreen, H.; Drits, V.A.; Salyn, A.L.; Jakobsen, F.; Springer, N. 2011: Formation of flint horizons in North Sea chalk through marine sedimentation of nano-quartz. Clay Minerals 46(4): 525-537
Navrotskii, A.V.; Dryabina, S.S.; Malysheva, Z.N.; Novakov, I.A. 2003: Formation of flocs and sediments in the presence of cationic polyelectrolytes. Colloid Journal (Moscow) 65(3): 335-340
Wang, P.F.; Li, Z.H.; Zhu, Y.M.; Gao, K.; Wang, K.Y. 2010: Formation of flower-like MgO crystal and its effect on the photoluminescence of Mg-cBN ceramics. Journal of Alloys and Compounds 492(1-2): 532-535
Shorthouse, J.D.; Lalonde, R.G. 1986: Formation of flowerhead galls by the Canada thistle gall-fly, Urophora cardui (Diptera: Tephritidae), under cage conditions. Canadian Entomologist 118(11): 1199-1203
Nejadasghar, M. 2007: Formation of fluctuations in a molecular slab via isobaric thermal instability. Monthly Notices of the Royal Astronomical Society 379(1): 222-228
Jacquart, A.; Tauc, P.; Nakatani, K.; Ishow, E. 2009: Formation of fluorescence reliefs photocontrolled by collective mass migration. Journal of Material Chemistry 19(47): 8999-9005
Anedda, A.; Carbonaro, C.M.; Corpino, R.; Ricci, P.C.; Grandi, S.; Mustarelli, P.C. 2007: Formation of fluorescent aggregates in Rhodamine 6G doped silica glasses. J. Non-Cryst. Solids 353(5-7): 481-485
Wang, Y. 1992: Formation of fluoride glasses based on AlF3-YbF3-PbF2-ZnF2-Ba&F2. Journal of Non-Crystalline Solids 142(1-2): 185-188
Yuhu, W.A.N.G.; Sawanobori, N.; Nagahama, S. 1991: Formation of fluoride glasses based on AlF3-YF3-PbF2 system. Journal of Non-Crystalline Solids 128(3): 322-325
Bonazzola, L.; Michaut, J.; Roncin, J. 1990: Formation of fluorinated radicals from chloromethane in SF6 matrix. New Journal of Chemistry (1987) 14(5): 373-378
Clark, J.H.; Robertson, M.S.; Smith, D.K.; Cook, A.; Streich, C. 1985: Formation of fluoro-Meisenheimer complexes using homogeneous and heterogeneous fluoride ion sources. Journal of Fluorine Chemistry 28(2): 161-169
Lai, C.L.; Orear, E.A.; Harwell, J.H. 1996: Formation of fluorocarbon surfactant reversed micelles in a halosolvent. Journal of Colloid and Interface Science 183(1): 166-175
Ponik, S.M.; Pavalko, F.M. 2004: Formation of focal adhesions on fibronectin promotes fluid shear stress induction of COX-2 and PGE2 release in MC3T3-E1 osteoblasts. Journal of Applied Physiology (1985) 97(1): 135-142
Zuber, M.T.; Parmentier, E.M. 1995: Formation of fold-and-thrust belts on Venus by thick-skinned deformation. Nature (London) 377(6551): 704-707
Kim, J.Y.; Zhang, L.Y. 2008: Formation of foreign direct investment clustering - A new path to local economic development ? The case of Qingdao. Regional Studies 42(2): 265-280
Yoshimura, Y. 1986: Formation of formal compounds in reaction of dimethyl phenols with formaldehyde. Journal of Polymer Science. Polymer Chemistry Edition 24(9): 2085-2099
Madzunkov, S.M.; Macaskill, J.A.; Chutjian, A.; Ehrenfreund, P.; Darrach, M.R.; Vidali, G.; Shortt, B.J. 2009: Formation of Formaldehyde and Carbon Dioxide on an Icy Grain Analog using Fast Hydrogen Atoms. The Astrophysical Journal 697(1): 801-806
Hasegawa, H.; Fujikura, H. 1997: Formation of formation of InP-based quantum structures by selective MBE on patterned substrates having high-index facets. International Workshop on Growth, Characterization and Exploitation of Epitaxial Compound Semiconductor on Novel Index Surfaces 28(8-10): 887-901
Horie, O.; Neeb, P.; Limbach, S.; Moortgat, G.K. 1994: Formation of formic acid and organic peroxides in the ozonolysis of ethene with added water vapour. Geophysical Research Letters 21(14): 1523-1526
Zhang, Y.L.; Min, Z.H.A.N.G.; Zheng, S.H.E.N.; Zhou, J.F.; Zhou, X.F. 2013: Formation of formic acid from glycerine using a hydrothermal reaction. Journal of Chemical Technology and Biotechnology (1986) 88(5): 829-833
Mersinger, R.; Dornauer, H.; Reinhard, E. 1988: Formation of forskolin by suspension cultures of Coleus forskohlii. Annual Congress of the Society for Medicinal Plant Research 35 (1987) 54(3): 200-204
Chakrabarti, M.; Virkar, A.N.; Maiti, H.S. 1985: Formation of forsterite using rice husk ash for high frequency insulation - Formation de forsterite à l'aide de cendre de cosses de riz pour isolation à haute fréquence. Transactions of the Indian Ceramic Society 44(1): 1-5
Kaiser, S.; Antonijevic, D.; Tsotsas, E. 2002: Formation of fouling layers on a heat exchanger element exposed to warm, humid and solid loaded air streams. Exhft-5 World Conference on Experimental Heat Transfer, Fluid Mechanics, and Thermodynamics 26(2-4): 291-297
Chen, J.X.; Tang, X.Y.; Yang, C.H.E.N.; Zhang, W.H.; Li, L.L.; Yuan, R.X.; Yong, Z.H.A.N.G.; Lang, J.P. 2009: Formation of Four Different [MoOS3Cu3]-Based Coordination Polymers from the Same Components via Four Synthetic Routes. Crystal Growth and Design 9(3): 1461-1469
Honglie, S.H.E.N.; Makita, Y.; Niki, S.; Yamada, A.; Iida, T.; Shibata, H.; Obara, A.; Uekusa, S.I. 1993: Formation of four new shallow emissions in Mn+ ion-implanted GaAs grown by molecular beam epitaxy having extremely low concentration of background impurities. Applied Physics Letters 63(13): 1780-1782
Jones, H.P. 1989: Formation of Fourier phase shifts in the solar NiI6768 Å line. Solar Physics 120(2): 211-234
Meakin, P. 1983: Formation of fractal clusters and networks by irreversible diffusion-limited aggregation. Physical Review Letters 51(13): 1119-1122
Thies, M.; Hinze, U.; Paradies, H.H. 1996: Formation of fractal clusters of colloidal copper hydrous oxides. Berichte der Bunsen-Gesellschaft 100(4): 501-504
Domenech, T.; Zouari, R.; Vergnes, B.; Peuvreldisdier, E. 2014: Formation of Fractal-like Structure in Organoclay-Based Polypropylene Nanocomposites. Macromolecules 47(10): 3417-3427
Poroshkov, V.P.; Gurin, V.S.; Kuntsevich, N.I. 1994: Formation of fractal structures in silver deposition onto TiO2 film electrodes. Russian Journal of Electrochemistry 30(8): 964-968
Katsui, Y.; Komuro, H. 1984: Formation of fractures in Komagatake Volcano, Hokkaido - Formation de fractures dans le Volcan Komagatake, Hokkaido. Journal of the Faculty of Science. Hokkaido University, Series 4 : Geology and Mineralogy 21(2): 183-195
Skei, J.M. 1988: Formation of framboidal iron sulfide in the water of permanently anoxic fjord - Framvaren, South Norway - Formation de sulfure de fer framboïdal dans les eaux d'un fjord à anoxie permanente, Framvaren, Norvège Sud. Anoxic Basins. Mini Workshop 23(3-4): 345-352
Amemiya, N.; Hayakawa, A.; Katsurai, M. 1991: Formation of free-boundary flux-core spheromaks. Journal of the Physical Society of Japan 60(8): 2632-2644
Ishida, H. 1989: Formation of free-electron-like resonant bands for alkali-metal overlayers on simple metals - Formation de bandes résonnantes du type électron libre pour des couches de métal alcalin sur des métaux simples. Physical Review. B, Condensed Matter 40(2): 1341-1344
Forrester, A.R.; Mckay, D.B. 1990: Formation of free radicals in food constituents by γ-irradiation. Pure Appl. Chem 62(2): 307-310
Yamauchi, J.; Ando, H.; Yamaoka, A. 1993: Formation of free radicals in photoirradiated cellulose nitrate. Observation of nitroxide species in the degradation processes. die Makromolekulare Chemie. Rapid Communications 14(1): 13-16
Radtsig, V.A. 1996: Formation of free radicals upon interaction of (≡Si-O-)2Si<|OO groups with H2, CH4, and C2H6 molecules. Kinetics and Catalysis 37(2): 283-290
Kato, T.; Hatakeyama, R. 2006: Formation of freestanding single-walled carbon nanotubes by plasma-enhanced CVD. Chemical Vapor Deposition 12(6): 345-352
Min, Q.I.A.N.; Yun Shen, Z.H.O.U.; Yang, G.A.O.; Jong Bok, P.A.R.K.; Tao, F.E.N.G.; Su Mei, H.U.A.N.G.; Zhuo, S.U.N.; Lan, J.I.A.N.G.; Yong Feng, L.U. 2011: Formation of freestanding two-dimensional carbon nanosheets from poly(phenylcarbyne) through pulsed laser ablation. Carbon (New York) 49(15): 5117-5123
Rudolph, W.; Wilhelmi, B. 1984: Formation of frequency chirp in ultrashort light pulses passing through saturable absorbers. Optics Communications 49(5): 371-375
Ogawa, R.; Masai, H.; Takahashi, Y.; Fujiwara, T. 2008: Formation of fresnoite-type Ba2TiGe2O8 crystallites in BaO-TiO2-GeO2 glass thin film and its optical nonlinearity : Glass and Ceramic Materials for Photonics. Nippon Seramikkusu Kyokai Gakujutsu Ronbunshi 116(10): 1130-1133
Tatsumisago, M.; Shinkuma, Y.; Saito, T.; Minami, T. 1992: Formation of frozen α-AgI in superionic glass matrices at ambient temperature by rapid quenching. Solid State Ionics 50(3-4): 273-279
Tatsumisago, M.; Taniguchi, A.; Minami, T. 1993: Formation of frozen α-AgI in twin-roller-quenched AgI-Ag2O-MxOy (MxOy=WO3, V2O5) glasses at ambient temperature. Journal of the American Ceramic Society 76(1): 235-237
Suzuki, Y.; Uchida, K. 1993: Formation of β-fructosyl compounds of pyridoxine in growing culture of Aspergillus niger. Bioscience, Biotechnology, and Biochemistry 57(6): 875-880
Nichols, K.M.; Lien, S.J. 1993: Formation of fuel NOx during black-liquor combustion. Tappi 1992 Environmental Conference 76(3): 185-191
Aksenov, V.L.; Avdeev, M.V.; Tropin, T.V.; Korobov, M.V.; Kozhemyakina, N.V.; Avramenko, N.V.; Rosta, L. 2006: Formation of fullerene clusters in the system C60/NMP/water by SANS. Physica, B Condens. Matter 385-86: 795-797
Lassesson, A.; Walsh, N.; Martinez, F.; Herlert, A.; Marx, G.; Schweikhard, L. 2005: Formation of fullerene dianions in a Penning trap. Eur. Phys. J., D At. Mol. Opt. Phys 34(1-3): 73-77
Cataldo, F.; Keheyan, Y. 2002: Formation of fullerenes and carbon clusters by laser irradiation of polymeric fullerene oxide (fullerene ozopolymer). Fullerenes, Nanotubes, and Carbon Nanostructures 10(4): 333-338
Amsharov, K.Y.; Simeonov, K.; Jansen, M. 2007: Formation of fullerenes by pyrolysis of 1,2-binaphthyl and 1,3-oligonaphthylene. Carbon (New York) 45(2): 337-343
Amsharov, K.Y.; Jansen, M. 2007: Formation of fullerenes by pyrolysis of perchlorofulvalene and its derivatives. Carbon (New York) 45(1): 117-123
Lu, X.Q.; Smith, D.R.; Johnson, D.W.; Rose, H.R.; Wilson, M.A. 1996: Formation of fullerenes from humic substances : An investigation by laser ablation Fourier transform ion cyclotron resonance mass spectroscopy. Carbon (New York) 34(9): 1145-1148
Fields, C.L.; Pitts, J.R.; Hale, M.J.; Bingham, C.; Lewandowski, A.; King, D.E. 1993: Formation of fullerenes in highly concentrated solar flux. Journal of Physical Chemistry (1952) 97(34): 8701-8702
Brinkmalm, G.; Barofsky, D.; Demirev, P.; Fenyo, D.; Hakansson, P.; Johnson, R.E.; Reimann, C.T.; Sunqvist, B.U.R. 1992: Formation of fullerenes in MeV ion track plasmas. Chemical Physics Letters 191(3-4): 345-350
Petcu, S.; Cauchetier, M.; Armand, X.; Voicu, I.; Alexandrescu, R. 2000: Formation of fullerenes in the laser-pyrolysis of benzene. Combustion and Flame 122(4): 500-507
Schneider, N.S.; Darwish, A.D.; Kroto, H.W.; Taylor, R.; Walton, D.R. 1994: Formation of fullerols via hydroboration of fullerene-C60. Journal of the Chemical Society. Chemical Communications (4): 463-464
Bo, W.U.; Gong, H.Q. 2013: Formation of fully closed microcapsules as microsensors by microfluidic double emulsion. Microfluidics and Nanofluidics 14(3-4): 637-644
Das, S.; Haldar, A. 2014: Formation of fully pearlitic microstructure in medium carbon steel. Philosophical Magazine (2003. Print) 94(28-30): 3281-3294
Mach, K.; Varga, V.; Hanus, V.; Sedmera, P. 1991: Formation of fulvene and dimethylenecyclopentenyl titanium complexes from bis (η5-tetramethylcyclopentadienyl)titanium(IV) precursors. Journal of Organometallic Chemistry 415(1): 87-95
Yoon, K.; Hsiao, B.S.; Chu, B. 2009: Formation of functional polyethersulfone electrospun membrane for water purification by mixed solvent and oxidation processes. Polymer (Guildford) 50(13): 2893-2899
Takano, I. 2001: Formation of functional thin films by ion beam assisted deposition. Hyomen Gijutsu 52(1): 80-81
Xiaoyu, H.A.N.; Wang, S.X.; Fangrui, Z.H.O.N.G.; Yixin, L.U. 2011: Formation of Functionalized Cyclopentenes via Catalytic Asymmetric [3+2] Cycloaddition of Acrylamides with an Allenoate Promoted by Dipeptide-Derived Phosphines. Synthesis (Stuttgart) (12): 1859-1864
Niederhauser, T.L.; Lua, Y.Y.; Yun, S.U.N.; Guilin, J.I.A.N.G.; Strossman, G.S.; Pianetta, P.; Linford, M.R. 2002: Formation of (functionalized) monolayers and simultaneous surface patterning by scribing silicon in the presence of alkyl halides. Chemistry of Materials 14(1): 27-29
Kurihara, K.; Sasaki, K.; Kawarada, M.; Goto, Y. 1992: Formation of functionally gradient diamond films. Thin Solid Films 212(1-2): 164-168
Chen, Q.Y.; Kevrekidis, P.G.; Malomed, B.A. 2010: Formation of fundamental solitons in the two-dimensional nonlinear Schrödinger equation with a lattice potential. The European Physical Journal. D, Atomic, Molecular and Optical Physics 58(1): 141-146
Padmanabhan, S.; Ogawa, T.; Suzuki, H. 1989: Formation of furan derivatives from phenacyl bromides and sodium telluride - attempted extension to coumarin synthesis. Bulletin of the Chemical Society of Japan 62(6): 2114-2116
Beckwith, A.L.J.; Boate, D.R. 1985: Formation of fused bi- and tri-cyclic β-lactams by radical ring closure. Tetrahedron Letters 26(14): 1761-1764
Beckwith, A.L.J.; Boate, D.R. 1988: Formation of fused tricyclic azetidinones and pyrrolidinones by intramolecular SH2 processes. Journal of Organic Chemistry 53(18): 4339-4348
Ilc, T.; Sket, P.; Plavec, J.; Da Silva, M.W.; Drevensekolenik, I.; Spindler, L. 2013: Formation of G-Wires: The Role of G:C-Base Pairing and G-Quartet Stacking. Journal of Physical Chemistry. C 117(44): 23208-23215
Lattke, P.; Schneider, G. 1985: Formation of GA20 glycosyl conjugates in seedlings of Vicia faba. Journal of Plant Growth Regulation 4(2): 71-79
Kozlov, V.M.; Bozzini, B.; Peraldo Bicelli, L. 2004: Formation of GaAs by annealing of two-layer Ga-As electrodeposits. Journal of Alloys and Compounds 379: 209-215
Jiang, W.U.; Wang, Z.M.; Li, A.Z.; Zhaoquan, Z.E.N.G.; Shibin, L.I.; Gang, C.H.E.N.; Salamo, G.J. 2011: Formation of GaAs Double Rings Through Gallium Migration and Nanodrilling. Journal of Nanoelectronics and Optoelectronics 6(1): 58-61
Ro, J.R.; Kim, S.B.; Lee, E.H. 1998: Formation of GaAs island by Ga-droplet-induced chemical beam epitaxy. J. Cryst. Growth 188(1-4): 377-382
Christou, A.; Efthimiopoulos, T.; Kiriakidis, G.; Varmazis, C. 1986: Formation of (100) GaAs on (100) silicon by laser recrystallization. Applied Physics Letters 48(22): 1516-1518
Milcoushlcin, V.M. 2011: Formation of GaAs1-xNx nanofilm on GaAs by low energy N2+ implantation. Applied Surface Science 257(11): 4941-4944
Aina, O.; Pande, K.P. 1984: Formation of GaAsP by ion implantation and annealing. Applied Physics Letters 44(5): 544-546
Sofue, Y.; Habe, A. 1992: Formation of galactic bulges by starbursts and the origin of Hubble morphological types. Publications of the Astronomical Society of Japan 44(3): 325-329
Van Dalen, A.; Villumsen, J.V. 1991: Formation of galactic halos from seeded hot dark matter. The Astrophysical Journal 376(2): 371-379
Marsakov, V.A.; Borkova, T.V.; Astakhov, V. 2006: Formation of galactic subsystems in light of the magnesium abundance in field stars : The halo. Astronomy Letters 32(8): 545-556
Marsakov, V.A.; Borkova, T.V. 2005: Formation of galactic subsystems in light of the magnesium abundance in field stars : The thick disk. Astronomy Letters 31(8): 515-527
Marsakov, V.A.; Borkova, T.V. 2006: Formation of galactic subsystems in light of the magnesium abundance in field stars : The thin disk. Astronomy Letters 32(6): 376-392
Suzuki, Y.; Uchida, K. 1994: Formation of β-galactosyl compounds of arabinosylcytosine in growing culture of Sporobolomyces singularis. Bioscience, Biotechnology, and Biochemistry 58(4): 639-643
Blumenthal, G.R.; Faber, S.M.; Primack, J.R.; Rees, M.J. 1984: Formation of galaxies and large-scale structure with cold dark matter. Nature (London) 311(5986): 517-525
Krempeckrygier, J.; Krygier, B. 1984: Formation of galaxies in G-variable cosmologies. II: The Hoyle-Narlikar and the Brans-Dicke gravitational theories. Acta Physica Polonica. B 15(6): 455-464
Millet, P.; Calka, A.; Williams, J.S.; Vantenaar, G.J.H. 1993: Formation of gallium nitride by a novel hot mechanical alloying process. Applied Physics Letters 63(18): 2505-2507
Debnath, R.K.; Stoica, T.; Besmehn, A.; Jeganathan, K.; Sutter, E.; Meijers, R.; Luth, H.; Calarco, R. 2009: Formation of GaN nanodots on Si (111) by droplet nitridation. Journal of Crystal Growth 311(13): 3389-3394
Kawasaki, K.; Nakamatsu, I.; Hirayama, H.; Tsutsui, K.; Aoyagi, Y. 2002: Formation of GaN nanopillars by selective area growth using ammonia gas source molecular beam epitaxy. Journal of Crystal Growth 243(1): 129-133
Epstein, M.L.; Poulsen, K.T.; Thiboldeaux, R. 1991: Formation of ganglia in the gut of the chick embryo. Journal of Comparative Neurology (1911) 307(2): 189-199
Itow, T.; Masuda, T.; Sekiguchi, K. 1990: Formation of ganglions and stomadaeum in normal and separate embryos of horseshoe crab, Tachypleus tridentatus. Zoological Science 7(2): 287-295
Kaneko, T.; Takaya, H.; Hatakeyama, R. 2008: Formation of gas atom encapsulated silicon clusters using electron beam generated silicon plasmas. Thin Solid Films 516(13): 4374-4378
Oyaidu, T.; Ogawa, Y.; Tsurumaki, K.; Ohdaira, K.; Matsumura, H. 2008: Formation of gas barrier films by Cat-CVD method using organic silicon compounds. Thin Solid Films 516(5): 604-606
Redchits, V.V.; Frolov, V.A.; Redchits, A.V.; Ovchinnikov, V.V.; Fedorov, S.A. 1998: Formation of gas-filled voids in the course ofthe weld metal bath crystallization and kinetics of hydrogen behaviour in the voids during metal cooling. Fizika i Himia Obrabotki Materialov (4): 57-60
Isobe, F.; Mori, Y.H. 1992: Formation of gas hydrate or ice by direct-contact evaporation of CFC alternatives. International Journal of Refrigeration 15(3): 137-142
Soon Gi, L.E.E.; Gokhale, A.M. 2006: Formation of gas induced shrinkage porosity in Mg-alloy high-pressure die-castings. Scripta Materialia 55(4): 387-390
Berko, H.N.; Mccaslin, P.C.; Finlaysonpitts, B.J. 1991: Formation of gas-phase bromine compounds by reaction of solid NaBr with gaseous CiONO2, Cl2, and BrCl at 298 K. Journal of Physical Chemistry (1952) 95(18): 6951-6958
Driscoll, D.J.; Martir, W.; Ji Xiang, W.A.N.G.; Lunsford, J.H. 1985: Formation of gas-phase methyl radicals over MgO. Journal of the American Chemical Society 107(1): 58-63
Driscoll, D.J.; Martir, W.; Lunsford, J.H. 1987: Formation of gas-phase methylallyl radicals during the oxidation of 1-butene and isobutylene over bismuth oxide. Journal of Physical Chemistry (1952) 91(13): 3585-3588
Jasinski, J.M. 1993: Formation of gas-phase silyl radicals in the atomic hydrogen etching of silicon. Chemical Physics Letters 211(6): 564-570
Binyukova, S.Y.; Chernov, I.I.; Kalin, B.A.; Kalashnikov, A.N.; Timofeev, A.A. 2002: Formation of gas pores in nickel alloys and structural steel under irradiation by helium ions. Atomic Energy (New York, N.Y.) 93(1): 569-577
Yadegari, M.; Asadian, M.; Saeedi, H.; Khodaei, Y.; Mirzaei, N. 2013: Formation of gaseous cavity defect during growth of Nd:YAG single crystals. Journal of Crystal Growth 367: 57-61
Daryan, L.A. 2000: Formation of gaseous decomposition products of insulation during endurance tests of high-voltage pulsed capacitors. Russian Electrical Engineering 71(9): 44-50
Kuck, D.; Matthias, C. 1992: Formation of gaseous π ion-neutral as probed by interannular tert-butyl cation transfer in protonated tert-butyl-substituted dipheylalkanes. Journal of the American Chemical Society 114(5): 1901-1903
Chen, J.C.; Shen, G.H.; Chen, L.J. 1999: Formation of Gd oxide thin films on (111)Si. Appl. Surf. Sci 142(1-4): 120-123
Harada, Y.; Ayabe, K.; Uekawa, N.; Kojima, T.; Kakegawa, K.; Sung Jin, K.I.M. 2008: Formation of GdAlO3-Al2O3 composite having fine pseudo-eutectic microstructure. Journal of the European Ceramic Society 28(15): 2941-2946
Suu, H.V.; Peto, G.; Mezey, G.; Paszti, F.; Kotai, E.; Fried, M.; Manuaba, A.; Zsoldos, E.; Gyulai, J. 1986: Formation of GdSi2 under UHV evaporation and in situ annealing. Applied Physics Letters 48(6): 437-438
Kawaguchi, K.; Ebe, H.; Ekawa, M.; Sugama, A.; Arakawa, Y. 2010: Formation of Ge-diffusion-suppressed GaAs layers and InAs quantum dots on Ge/Si substrates. Journal of Crystal Growth 312(20): 2919-2922
Kovacevic, I.; Pivac, B.; Dubcek, P.; Zorc, H.; Radic, N.; Bernstorff, S.; Campione, M.; Sassella, A. 2007: Formation of Ge islands from a Ge layer on Si substrate during post-growth annealing. Applied Surface Science 253(6): 3034-3040
Guo, H.M.; Wang, Y.L.; Liu, H.W.; Ma, H.F.; Qin, Z.H.; Gao, H.J. 2004: Formation of Ge nanoclusters on Si(111)-7×7 surface at high temperature. Surface Science 561(2-3): 227-232
Dana, A.; Tokay, S.; Aydinli, A. 2006: Formation of Ge nanocrystals and SiGe in PECVD grown SiNx:Ge thin films. E-Mrs Spring Meeting on Germanium-Based Semiconductors from Materials to Devices 9(4-5): 848-852
Lee, P.F.; Dai, J.Y.; Chan, H.L.W. 2006: Formation of Ge nanocrystals by utilizing nanocluster source. E-Mrs Spring Meeting on Germanium-Based Semiconductors from Materials to Devices 9(4-5): 817-822
Young Min, K.I.M.; Jeong, M.K.; Park, K.H.; Jung, S.G.; Bae, S.H.; Lee, J.H. 2009: Formation of Ge nanocrystals in a silicon dioxide layer using pulsed plasma-immersion ion implantation. Microelectronic Engineering 86(10): 2045-2048
Zacharias, M.; Blasing, J.; Lohmann, M.; Christen, J. 1996: Formation of Ge nanocrystals in amorphous GeOx and SiGeOx alloy films. Thin Solid Films 278(1-2): 32-36
Zacharias, M.; Blasing, J.; Christen, J.; Veit, P.; Dietrich, B.; Bimberg, D. 1995: Formation of Ge nanocrystals with sharp size distribution : structural and optical characterization. Superlattices and Microstructures 18(2): 139-145
Teys, S.A.; Talochkin, A.B.; Olshanetsky, B.Z. 2009: Formation of Ge nanoislands before the completion of a wetting layer in the Ge/Si(111) system. Journal of Crystal Growth 311(15): 3898-3903
Mori, H.; Nagai, H.; Yanagawa, T.; Matsumoto, S. 2002: Formation of Ge quantum dots on boron-reconstructed surface/Si(111). European Materials Research Society 89(1-3): 188-190
Hatakeyama, S.; Itoh, Y.; Kawashima, T.; Washio, K. 2014: Formation of Ge quantum dots on Si substrate using consecutive deposition of Ge/C and in situ post annealing. E-Mrs 2013 Fall Meeting. Symposium a Alternative Semiconductor Integration in Si Microelectronics: Materials, Techniques and Applications 125: 28-32
Kim, H.; Shin, C.; Chang, J. 2005: Formation of Ge self-assembled quantum dots on a SixGe1-x buffer layer. Applied Surface Science 252(5): 1476-1480
Zhang, X.X.; Guo, T.F.; Zhang, Y.W. 2010: Formation of gears through buckling multilayered film-hydrogel structures. Thin Solid Films 518(21): 6048-6051
Han, H.W.; Huang, C.Y.; Liu, H.S. 1999: Formation of gehlenite (Ca2Al2SiO7) by carbothermal reduction of carbonized rice hulls. Nippon Seramikkusu Kyokai Gakujutsu Ronbunshi 107(11): 1115-1117
Iritani, E.; Mukai, Y.; Katagiri, N.; Yoshii, I. 2003: Formation of gel emulsions by filtration-consolidation of O/W emulsions. Journal of Chemical Engineering of Japan 36(5): 590-596
Higgs, P.G.; Ball, R.C. 1989: Formation of gels and complexes by pairwise interacting polymers. Journal de Physique (Paris) 50(21): 3285-3308
Lizaso, E.; Munoz, M.E.; Santamaria, A. 1999: Formation of gels in ethylcellulose solutions. An interpretation from Dynamic viscoelastic results. Macromolecules 32(6): 1883-1889
Fujita, M.; Saito, R.; Dresselhaus, G.; Dresselhaus, M.S. 1992: Formation of general fullereness by their projection on a honeycomb lattice. Physical Review. B, Condensed Matter 45(23): 13834-13836
Ming, Z.H.O.U.; Askin, R.G. 1998: Formation of general GT cells : An operation-based approach. Computers and Industrial Engineering 34(1): 147-157
Kondrakov, A.O.; Ignatev, A.N.; Frimmel, F.H.; Brase, S.; Horn, H.; Revelsky, A.I. 2014: Formation of genotoxic quinones during bisphenol A degradation by TiO2 photocatalysis and UV photolysis: A comparative study. Applied Catalysis. B, Environmental 160-161: 106-114
Zolotarev, V.G. 1984: Formation of geochemical fields of concentration in the thermal gradient fields of intrusive bodies - La formation des champs géochimiques de concentration dans les champs de gradients thermiques des corps intrusifs. Journal of Geochemical Exploration 21(1-3): 229-237
Tauchi, S. 2000: Formation of geologic structure and property of reservoir in offshore Zaire. 1999 Japt Geology and Exploration Symposium 65(1): 71-80
Lokshin, B.V.; Yezernitskaya, M.G. 1983: Formation of geometrical isomers during protonation of carbonyl complexes of transition metals: (η5-C5H5)Mn(CO)(Ph2PCH2CH2PPh2). Journal of Organometallic Chemistry 256(1): 89-95
Kalem, S.; Arthursson, O.; Romandic, I. 2010: Formation of germanates on germanium by chemical vapor treatment. Thin Solid Films 518(9): 2377-2380
Chen, W.R.; Chang, T.C.; Liu, P.T.; Tu, C.H.; Yeh, J.L.; Hsieh, Y.T.; Wang, R.Y.; Chang, C.Y. 2007: Formation of germanium nanocrystals by rapid thermal oxidizing SiGeO layer for nonvolatile memory application. Surf. Coat. Technol 202(4-7): 1333-1337
Choi, W.K.; Chew, H.G.; Ho, V.; Ng, V.; Chim, W.K.; Ho, Y.W.; Ng, S.P. 2006: Formation of germanium nanocrystals in thick silicon oxide matrix on silicon substrate under rapid thermal annealing. J. Cryst. Growth 288(1): 79-83
Glidewell, C.; Lloyd, D.; Lumbard, K.W. 1987: Formation of germanium-nitrogen double bonds in reactions of the electron-rich germylene bis[bis(trimethylsilyl)amido]germanium(II) with a range of diazo-compounds. Journal of the Chemical Society. Dalton Transactions (3): 501-508
Wada, T.; Fujimoto, H.; Sobue, S.; Masuda, H. 1997: Formation of GeSi alloy at or near the surface of Si wafers for the Si/Ge/Si system by the electron-beam doping method. Physica Status Solidi. A. Applied Research 161(1): 133-142
Koyama, Y.; Goldman, J.E. 1999: Formation of GFAP cytoplasmic inclusions in astrocytes and their disaggregation by αB-crystallin. The American Journal of Pathology 154(5): 1563-1572
Le Droumaguet, B.; Mantovani, G.; Haddleton, D.M.; Velonia, K. 2007: Formation of giant amphiphiles by post-functionalization of hydrophilic protein-polymer conjugates. Journal of Material Chemistry 17(19): 1916-1922
Gorelova, O.A.; Korzhenevskaya, T.G. 2002: Formation of giant and ultramicroscopic forms of Nostoc muscorum CALU 304 during cocultivation with Rauwolfia tissues. Microbiology (New York) 71(5): 563-569
Abiko, K.; Takaki, S.; Yokota, T.; Satoh, S. 2000: Formation of giant columnar grains in high-purity iron by hot-rolling. Mater. Trans. - Jim 41(1): 102-108
Wood, T.D.; Van Cleef, G.W.; Mearini, M.A.; Coe, J.V.; Marshall, A.G. 1993: Formation of giant fullerene gas-phase ions (C2n+, 60≤2n≤500): laser desorption/electron ionization Fourier-transform ion cyclotron resonance mass spectrometric evidence. Rapid Communications in Mass Spectrometry 7(4): 304-311
Bekki, K.; Chiba, M. 2004: Formation of giant globular cluster G1 and the origin of the M 31 stellar halo. Astronomy and Astrophysics (Berlin. Print) 417(2): 437-442
Takewaki, T.; Yamada, H.; Shibata, T.; Ohmi, T.; Nitta, T. 1995: Formation of giant-grain copper interconnects by a low-energy ion bombardment process for high-speed ULSIs. Materials Chemistry and Physics 41(3): 182-191
Kolesnik, I.G. 1991: Formation of giant molecular cloud complexes in galaxies. Astronomy and Astrophysics (Berlin. Print) 243(1): 239-243
Shibata, K.; Matsumoto, R. 1991: Formation of giant molecular clouds and helical magnetic fields by the Parker instability. Nature (London) 353(6345): 633-635
Tomisaka, K. 1986: Formation of giant molecular clouds by coagulation of small clouds and spiral structure. Publications of the Astronomical Society of Japan 38(1): 95-109
Tomisaka, K. 1987: Formation of giant molecular clouds by coagulation of small molecular clouds in a spiral gravitational potential. International Astronomical Union. Symposium 115 (1985) (115): 541-543
Kaneko, T.; Ichikawa, A.; Jian Ping, G.O.N.G.; Osada, Y. 2003: Formation of giant needle-like poly cation-bile acid complexes. Macromolecular Rapid Communications 24(13): 789-792
Alibert, Y.; Mordasini, C.; Mousis, O.; Benz, W. 2005: Formation of giant planets: An attempt in matching observational constraints. Space Sci. Rev 116(1-2): 77-95
Kornet, K.; Wolf, S.; Rozyczka, M. 2006: Formation of giant planets around stars with various masses. Astronomy and Astrophysics (Berlin. Print) 458(2): 661-668
Klahr, H.; Bodenheimer, P. 2006: Formation of giant planets by concurrent accretion of solids and gas inside an anticyclonic vortex. The Astrophysical Journal 639(1): 432-440
Kornet, K.; Bodenheimer, P.; Rozyczka, M.; Stepinski, T.F. 2005: Formation of giant planets in disks with different metallicities. Astronomy and Astrophysics (Berlin. Print) 430(3): 1133-1138
Kozitsky, S.V.; Krasnov, A.N. 1996: Formation of gigantic crystallites in ZnS obtained by self-propagating high-temperature synthesis. Journal of Crystal Growth 165(1-2): 166-168
Salama, S.N.; Saad, E.A.; Darwish, H.; Abomosallam, H.A. 2005: Formation of glass-ceramic materials based on pyroxene solid solution-fluorapatite phases and their thermal expansion properties. Ceramics International 31(4): 559-566
Chocholousek, J. 2008: Formation of glass defects originating in raw materials. Glass (Redhill) 85(1): 28-28
Zhurikhina, V.; Lipovskii, A.; Kaganovskii, Y. 2007: Formation of glass-metal metamaterials via reactive diffusion : a model. Proc. Spie Int. Soc. Opt. Eng: 65810C.1-65810C.8
Bica, I. 2000: Formation of glass microspheres with rotating electrical arc. Materials Science and Engineering. B, Solid-State Materials for Advanced Technology 77(2): 210-212
Westphal, A.J.; Bradley, J.P. 2004: Formation of glass with embedded metal and sulfides from shock-accelerated crystalline dust in superbubbles. The Astrophysical Journal 617(2): 1131-1141
Qiang, J.B.; Zhang, W.; Inoue, A. 2006: Formation of glassy and icosahedral phases in as-cast (Zr9Ni4)75(Al1-xTix)25 alloys. Scripta Materialia 55(7): 617-620
Parsathi, C.H.A.T.T.E.R.J.E.E.; Batabyal, A.K. 1988: Formation of glassy films of Fe, Al and Ni by N2+ ion implantation - Formation de couches minces vitreuses de Fe, Al et Ni par implantation d'ions N2+. Journal of Non-Crystalline Solids 103(1): 14-20
Okazaki, M.; Toriyama, K. 1989: Formation of glassy islands and deterioration of crystal structure in irradiated long-chain n-alkane crystals detected by high resolution NMR. Chemical Physics Letters 160(1): 21-24
Dunst, A.; Herlach, D.M.; Gillessen, F. 1991: Formation of glassy spheres of Fe-Ni-P-B by containerless processing. International Conference on Rapidly Quenched Materials 7 133: 785-789
Zhang, L.C.; Xu, J. 2002: Formation of glassy Ti50Cu20Ni24Si4B2 alloy by high-energy ball milling. Materials Letters (General Ed.) 56(5): 615-619
Teuchert, K.; Thomas, R.; Mullerzell, A. 1995: Formation of glazes of different chemical compositions at different temperatures. Interceram 44(4): 230-233
Kumai, Y.; Hashi, Y.; Fujimoto, M. 1993: Formation of globular clusters and galactic environments. The Astrophysical Journal 416(2): 576-581
Kumai, Y.; Baidyanath, B.A.S.U.; Fujimoto, M. 1993: Formation of globular clusters from gas in large-scale unorganized motion in galaxies. The Astrophysical Journal 404(1): 144-161
Kravtsov, A.V.; Gnedin, O.Y. 2005: Formation of globular clusters in hierarchical cosmology. The Astrophysical Journal 623(2): 650-665
Hasegawa, K.; Umemura, M.; Kitayama, T. 2009: Formation of globular clusters induced by external ultraviolet radiation. Monthly Notices of the Royal Astronomical Society 397(3): 1338-1347
Beck, J.; Ledl, F.; Severin, T. 1989: Formation of glucosyl-deoxyosones from Amadori compounds of maltose - Formation de glucosyl-désoxyosones à partir des composés d'Amadori dérivés du maltose. Zeitschrift für Lebensmittel-Untersuchung und -Forschung 188(2): 118-121
Zaleski, J.; Bansal, S.K.; Gessner, T. 1983: Formation of glucuronide, sulphate and glutathione conjugates of benzo[a]pyrene metabolites in hepatocytes isolated from inbred strains of mice - Formation de conjugués entre les métabolites de benzo(a) pyrène et les glucuronates, sulfates et glutathion dans les hépatocytes isolés de souches consanguines de souris. Carcinogenesis (New York. Print) 4(11): 1359-1366
Turney, T.W.; Patti, A.; Gates, W.; Shaheen, U.; Kulasegaram, S. 2013: Formation of glycerol carbonate from glycerol and urea catalysed by metal monoglycerolates. Green Chemistry 15(7): 1925-1931
Lee, C.W.; Kim, J.K.; Moon, E.S.; Minh, Y.C.; King, H. 2009: Formation of Glycine on Ultraviolet-Irradiated Interstellar Ice-Analog Films and Implications for Interstellar Amino Acids. The Astrophysical Journal 697(1): 428-435
Mares, F.; Diamond, S.E.; Regina, F.J.; Solar, J.P. 1985: Formation of glycol monoacetates in the oxidation of olefins catalyzed by metal nitro complexes: mono- vs. bimetallic system. Journal of the American Chemical Society 107(12): 3545-3552
Gress, A.; Smarsly, B.; Schlaad, H. 2008: Formation of Glycopolyamide Nanofibers. Macromolecular Rapid Communications 29(4): 304-308
Nicotra, F.; Panza, L.; Ronchetti, F.; Russo, G.; Toma, L. 1987: Formation of glycosides by epoxidation-ring closure of open-chain hydroxyenol ethers obtained from sugars. Journal of the Chemical Society. Perkin Transactions. i (6): 1319-1324
Oconnor, D.L.; Dudukovic, M.P.; Ramachandran, P.A. 1992: Formation of goethite (α-FeOOH) through the oxidation of a ferrous hydroxide slurry. Industrial and Engineering Chemistry Research 31(11): 2516-2524
Caixia, K.A.N.; Changshun, W.A.N.G.; Jiejun, Z.H.U.; Hongchen, L.I. 2010: Formation of gold and silver nanostructures within polyvinylpyrollidone (PVP) gel. Journal of Solid State Chemistry 183(4): 858-865
Moini, M.; Eyler, J.R. 1987: Formation of gold cluster cations by direct laser vaporization. Chemical Physics Letters 137(4): 311-314
Urban, F.K.; Bernstein, A. 1990: Formation of gold clusters in the ionized cluster beam deposition technique. Thin Solid Films 193-194(1-2): 92-99
Guzman, J.; Kuba, S.; Fierrogonzalez, J.C.; Gates, B.C. 2004: Formation of gold clusters on TiO2 from adsorbed Au(CH3)2(C5H7O2) characterization by X-ray absorption spectroscopy. Catalysis Letters 95(1-2): 77-86
Li, X.M.; De Jong, M.R.; Inoue, K.; Shinkai, S.; Huskens, J.; Reinhoudt, D.N. 2001: Formation of gold colloids using thioether derivatives as stabilizing ligands. Journal of Material Chemistry 11(7): 1919-1923
Makino, E.; Yazaki, T.; Ishii, Y.; Shibata, T.; Ikeda, M.; Tennichi, K. 1992: Formation of gold fine patterns by laser enhanced plating. Hyomen Gijutsu 43(7): 689-693
Ahrland, S.; Nilsson, K.; Persson, I.; Yuchi, A.; Pennerhahn, J.E. 1989: Formation of gold(I) halide and thiocyanate complexes in pyridine and acetonitrile and the structures of gold(I) solvates in these solvents. A thermodynamic and EXAFS spectroscopy study. Inorganic Chemistry 28(10): 1833-1838
Au Yeung, S.; Hobson, R.; Biggs, S.; Grieser, F. 1993: Formation of gold sols using ultrasound. Journal of the Chemical Society. Chemical Communications (4): 378-379
Medvid, A.; Fedorenko, L.; Korbutjak, B.; Kryluk, S.; Yusupov, M.; Mychko, A. 2007: Formation of graded band-gap in CdZnTe by YAG:Nd laser radiation. Lumdetr 2006 : European Conference on Luminescent Detectors and Transformers of Ionizing Radiation 42(4-5): 701-703
Sano, H.; Kurasawa, Y.; Nishida, K. 1997: Formation of gradient phase morphology in immisible [immiscible] polymer blends of poly(2,6-dimethyl-1,4-phenylene) ether and polyethylene. Kobunshi Ronbunshu (Tokyo) 54(4): 244-254
Xuming, X.I.E.; Matsuoka, M.; Takemura, K. 1992: Formation of gradient phase structure during annealing of a polymer blend. Polymer (Guildford) 33(9): 1996-1998
Gromov, V.E.; Morozov, K.V.; Ivanov, Y.F.; Volkov, K.V.; Konovalov, S.V. 2014: Formation of Gradients of Structure, Phase Composition, and Dislocation Substructure in Differentially Hardened Rails. Nanotechnologies in Russia 9(5-6): 288-292
Artamonova, I.L.; Baranovskaya, I.A.; Klenin, S.I.; Erussalimsky, B.L. 1991: Formation of graft copolymers of complex structure in the interaction of acrylonitrile with polyvinylacetate activated with n-butyl lithium. Journal of Macromolecular Science. Chemistry 28: 59-65
Tomlinson, M.R.; Genzer, J. 2003: Formation of grafted macromolecular assemblies with a gradual variation of molecular weight on solid substrates. Macromolecules 36(10): 3449-3451
Kim, J.D.; Kang Sj, L.; Lee, J.W. 2005: Formation of grain boundaries in liquid-phase-sintered WC-Co alloys. Journal of the American Ceramic Society 88(2): 500-503
Lijie, Z.H.A.N.G.; Jie, C.H.E.N.; Chan, H.M.; Harmer, M.P. 1989: Formation of grain-boundary carbon-containing phase during annealing of YBa2Cu3O6+x. Journal of the American Ceramic Society 72(10): 1997-2000
Kamijo, T.; Fukutomi, H. 1986: Formation of grain boundary dislocations by the bulging of coincidence tilt boundaries - Formation de dislocations aux joints de grains par renflement des joints de flexion en coïncidence. Scripta Metallurgica 20(10): 1347-1348
Grange, G.; Jourdan, C.; Gastaldi, J. 1988: Formation of grain boundary faceting during growth of Al crystals from melt - Formation du facettage des joints de grains durant la croissance de cristaux de Al à partir du bain. Journal of Crystal Growth 87(2-3): 325-330
Guo, H.M.; Yang, X.J.; Luo, X.Q. 2009: Formation of grain refined and non-dendritic microstructure of an aluminum alloy under angular oscillation. Journal of Alloys and Compounds 482(1-2): 412-415
Jingsong, Z.H.A.O.; Xueqin, W.A.N.G.; Chenggao, F.A.N. 1991: Formation of grains in a suspension of poly(vinyl chloride). Polymer (Guildford) 32(14): 2674-2679
Majkova, E.; Spasova, M.; Jergel, M.; Luby, S.; Okayasu, S.; Luches, A.; Martino, M.; Zubarev, E.N.; Brunel, M. 1999: Formation of granular-like structure of Ag/Co multilayers by excimer laser irradiation. Thin Solid Films 343-4: 214-217
Young, I.M.; Donaldson, C.H. 1985: Formation of granular-textured layers and laminae within the Rhum crystal pile - La formation des lits et laminae à texture granulaire à l'intérieur du complexe cristallin de Rhum. Geological Magazine 122(5): 519-528
Jones, J.D.; Mahajan, K.K.; Williams, W.H.; Ecton, P.A.; Mo, Y.; Perez, J.M. 2010: Formation of graphane and partially hydrogenated graphene by electron irradiation of adsorbates on graphene. Carbon (New York) 48(8): 2335-2340
Jun Gyu, K.I.M.; Woo Sik, K.I.M.; Young Hee, K.I.M.; Chang Hyun, L.I.M.; Doo Jin, C.H.O.I. 2013: Formation of graphene on SiC by chemical vapor deposition with liquid sources. Surf. Coat. Technol 231: 189-192
Wang, Z.M.; Hoshinoo, K.; Yamagishi, M.; Yoshizawa, N.; Kanoh, H.; Hirotsu, T. 2006: Formation of graphite-derived layered mesoporous carbon materials. Microporous and Mesoporous Materials 93(1-3): 254-262
Iroh, J.O.; Yuan, W. 1996: Formation of graphite fiber-polyimide prepregs by electrodeposition. Journal of Applied Polymer Science 59(4): 737-747
Grunden, B.; Iroh, J.O. 1995: Formation of graphite fibre-polypyrrole coatings by aqueous electrochemical polymerization. Polymer (Guildford) 36(3): 559-563
Mermoux, M.; Chabre, Y. 1990: Formation of graphite oxide. Synth. Met 34(1-3): 157-162
Honjo, K.; Shindo, A. 1986: Formation of graphite oxide from carbon fibers. Carbon (New York) 24(2): 230-234
Ruisheng, X.U.E.; Zengmin, S.H.E.N. 2003: Formation of graphite-potassium intercalation compounds during activation of MCMB with KOH. Carbon (New York) 41(9): 1862-1864
Katayama, K.; Nagase, H.; Manabe, Y.; Kodama, Y.; Takeishi, T.; Nishikawa, M. 2004: Formation of graphite re-deposition layer by hydrogen RF plasma. Thin Solid Films 457(1): 151-157
Sumiyoshi, Y.; Ushio, M.; Suzuki, S. 1988: Formation of graphite single crystal from iron solution by the slow cooling method. Bulletin of the Chemical Society of Japan 61(5): 1577-1585
Belenkov, E.A. 2001: Formation of graphite structure in carbon crystallites. Inorganic Materials 37(9): 928-934
Sonobe, N.; Kyotani, T.; Tomita, A. 1991: Formation of graphite thin film from polyfurfuryl alcohol and polyvinyl acetate carbons prepared between the lamellae of montmorillonite. Carbon (New York) 29(1): 61-67
Shimada, T.; Kubota, S.; Yanase, T.; Nagahama, T. 2014: Formation of graphite zigzag edges by cathodic electrochemical etching in acidic solution. Carbon (New York) 67: 300-303
Tzeng, S.S.; Lin, Y.H. 2013: Formation of graphitic rods in carbon/carbon composites reinforced with carbon nanotubes. Carbon (New York) 52: 617-620
Yoneyama, S.; Tsutsumi, O.; Kanazawa, A.; Shiono, T.; Ikeda, T. 2001: Formation of grating by means of photoinduced alignment change of polymer liquid crystals with azobenzene moieties. Mol. Cryst. Liq. Cryst. Sci. Technol., A Mol. Cryst. Liq. Cryst 368: 335-343
Han, Z.H.O.U.; Chen, W.A.N.G.; Zude, F.E.N.G.; Siwei, L.I.; Binbin, X.U. 2012: Formation of grid-like mesoporous titania film via structural transformation and its surface superhydrophilicity conversion. Surface and Coatings Technology 207: 34-41
Hasler, P.; Richarz, W. 1989: Formation of Grignard reagents from the reaction of cyclopentyl bromide and a rotating disk of magnesium in diethyl ether: a comparison of the chemical reaction rate and the mass transport. Industrial and Engineering Chemistry Research 28(1): 38-43
Melninkaitis, A.; Balciunas, T.; Sirutkaitis, V.; Juzumas, V.; Janusonis, J.; Slekys, G. 2008: Formation of grooves in SiO2 coated silicon using femtosecond Ytterbium DPSS laser. Proc. Spie Int. Soc. Opt. Eng: 70050L.1-70050L.12
Vlasova, L.S.; Romanov, V.V. 1990: Formation of groundwater and river waters on the basis of tritium analysis - Etude de la formation des eaux souterraines et des eaux de rivière par dosage du tritium. The International Journal of Radiation Applications and Instrumentation. Part E. Nuclear Geophysics 4(1): 125-133
Nair, H.K.; Morrison, J.A. 1989: Formation of group 11 trifluoromethyl derivatives by reaction of Cd(CF3)2•glyme with representative Au, Ag, and Cu complexes: isolation of Au(CF3)3(PME3), Au(CF3)3(PEt3), AuI(CF3)2(PMe3), AuCF3(PMe3), AuCF3(PEt3) and AgCF3(PMe3) - observation of CuCF3(PMe3). Journal of Organometallic Chemistry 376(1): 149-164
Nishikawa, H.; Tanaka, T.; Yanase, Y.; Hourai, M.; Sano, M.; Tsuya, H. 1997: Formation of grown-in defects during Czochralski silicon crystal growth. Jpn. J. Appl. Phys 36(11): 6595-6600
Larisch, B.; Pischetsrieder, M.; Severin, T. 1997: Formation of guanosine adducts from L-ascorbic acid under oxidative conditions. Bioorganic and Medicinal Chemistry Letters 7(20): 2681-2686
Siauciunas, R.; Baltakys, K. 2004: Formation of gyrolite during hydrothermal synthesis in the mixtures of CaO and amorphous SiO2 or quartz. Cement and Concrete Research 34(11): 2029-2036
Becker, H.D.; Elebring, T. 1985: Formation of 6(2H)-aceanthrylenones and their photochemical conversion into aceanthrylenes. Journal of Organic Chemistry 50(8): 1319-1322
Alekseev, A.; Peltonen, J.; Savransky, V. 1994: Formation of H aggregates in a 7-aminocoumarin dye monolayer : a spectroscopy and elasticity study. Thin Solid Films 247(2): 226-229
Lai, W.C.; Dixit, N.S.; Mackay, R.A. 1984: Formation of H aggregates in thionine dye in water. Journal of Physical Chemistry (1952) 88(22): 5364-5368
Rao, V.S.; Skinner, G.B. 1988: Formation of H and D atoms in pyrolysis of benzene-d6, chlorobenzene, bromobenzene, and iodobenzene behind shock waves. Journal of Physical Chemistry (1952) 92(9): 2442-2448
Subba Rao, V.; Skinner, G.B. 1989: Formation of H and D atoms in the pyrolysis of toluene-d8 and toluene-α,α,α-d3 behind shock waves. Journal of Physical Chemistry (1952) 93(5): 1864-1869
Burlica, R.; Shih, K.Y.; Loeke, B.R. 2010: Formation of H2 and H2O2 in a Water-Spray Gliding Arc Nonthermal Plasma Reactor. Industrial and Engineering Chemistry Research 49(14): 6342-6349
Paszkowicz, W.; Duzewski, P.; Spolnik, Z.M.; Firszt, F.; Meczynska, H. 1999: Formation of 4H and 8H polytypes in bulk Zn1-xMgxSe crystals. J. Alloys Compd 286(1-2): 224-235
Takeda, Y. 1991: Formation of H and He lines and atmospheric diagnostics in type II supernovae. Astronomy and Astrophysics (Berlin. Print) 245(1): 182-194
Belkic, D.; Mancev, I. 1992: Formation of H- by double charge exchange in fast proton-helium collisions. Physica Scripta 45(1): 35-42
Van Bommel, P.J.M.; Geerlings, J.J.C.; Van Wunnik, J.N.M.; Massmann, P.; Granneman, E.H.A.; Los, J. 1983: Formation of H- by scattering H+ on a cesiated polycrystalline tungsten surface. Journal of Applied Physics 54(10): 5676-5684
Matsumoto, S.; Sato, A.; Mori, T. 1994: Formation of h.c.p. and f.c.c. twins in an Fe-Mn-Cr-Si-Ni alloy. Acta Metallurgica et Materialia 42(4): 1207-1213
Khalyapin, D.L.; Kim, J.; Stolya, S.V.; Turpanov, I.A.; Kim, P.D.; Kim, I. 2003: Formation of 4H-closely packed structure in thin films of metastable nanocrystalline Co13Cu87 alloy. Solid State Communications 128(6-7): 209-212
Alsamour, B.; Urbain, X.; Brouillard, F.; Cornet, A. 1993: Formation of H- in the collision of H(3s) with helium and neon. Journal of Physics. B. Atomic, Molecular and Optical Physics 26(7): 1317-1327
Amorim, J.; Loureiro, J.; Schram, D. 2001: Formation of H- ions via vibrational excited molecules produced from recombinative wall desorption of H atoms in a low-pressure H2 positive column. Chemical Physics Letters 346(5-6): 443-448
Yamasaki, M.; Sasaki, M.; Nishijima, M.; Hiraga, K.; Kawamura, Y. 2007: Formation of 14H long period stacking ordered structure and profuse stacking faults in Mg-Zn-Gd alloys during isothermal aging at high temperature. Acta Materialia 55(20): 6798-6805
Marchese, L.; Jiesheng, C.H.E.N.; Wright, P.A.; Thomas, J.M. 1993: Formation of H3O+ at the Brönsted site in SAPO-34 catalysts. Journal of Physical Chemistry (1952) 97(31): 8109-8112
Yoko, T.; Kamiya, K.; Yuasa, A.; Sakka, S. 1986: Formation of H2O2 at the illuminated TiO2 film electrode prepared by the sol-gel method and its chemical states. Journal of Electroanalytical Chemistry and Interfacial Electrochemistry 209(2): 399-404
Goumans, T.P.M.; Catlow, C.R.A.; Brown, W.A. 2009: Formation of H2 on an olivine surface : a computational study. Monthly Notices of the Royal Astronomical Society 393(4): 1403-1407
Geddes, J.; Donnelly, A.; Hughes, M.P.; Higgins, D.P.; Gilbody, H.B. 1994: Formation of H(2p) and H(2s) in collisions of He+ with H atoms. Journal of Physics. B. Atomic, Molecular and Optical Physics 27(14): 3037-3043
Wei, Z.H.A.O.; Dian, C.H.E.N.; Grason, G.M.; Russell, T.P. 2013: Formation of H* Phase in Chiral Block Copolymers: Effects of Solvents and Solution-Cast Conditions. Macromolecules 46(2): 455-462
Wei, Z.H.A.O.; Feng, L.I.U.; Xinyu, W.E.I.; Dian, C.H.E.N.; Grason, G.M.; Russell, T.P. 2013: Formation of H* Phase in Chiral Block Copolymers: Morphology Evolution As Revealed by Time-Resolved X-ray Scattering. Macromolecules 46(2): 474-483
Kowalewski, I.; Schaeffer, P.; Adam, P.; Dessort, D.; Fafet, A.; Carpentier, B. 2010: Formation of H2S and sulfur-rich bitumen from a reservoired heavy oil in the presence of elemental sulfur. International Meeting on Organic Geochemistry 41(9): 951-958
Wang, H.Y.; Wang, Y.Y.; Song, Q.; Wang, T.M. 1998: Formation of 6H-SiC due to subsequent annealing of sputtering a-SiC :H films. Materials Letters (General Ed.) 35(3-4): 261-265
Smolsky, I.L.; Zaitseva, N.P.; Rudneva, E.B.; Bogatyreva, S.V. 1996: Formation of hair inclusions in rapidly grown potassium dihydrogen phosphate crystals. J. Cryst. Growth 166(1-4): 228-233
Sohrin, Y. 1991: Formation of halide complexes of methyl- and inorganic germanium(IV) in aqueous hydrohalogenic acid solutions. Bulletin of the Chemical Society of Japan 64(11): 3363-3371
Myungjin, S.U.K.; Gilheyun, C.H.O.I.; Inhyung, M.O.O.N. 1992: Formation of halo in Sb-InSb and Sn-Bi eutectic alloy systems. Journal of Crystal Growth 123(1-2): 5-16
Clewley, R.G.; Cross, G.G.; Fischer, A.; Henderson, G.N. 1989: Formation of 4-halo-4-nitrocyclohexa-2,5-dienones on nitration of p-halophenols and p-halophenyl acetates. Tetrahedron (Oxford. Print) 45(5): 1299-1310
Yinan, Q.I.; Chii, S.H.A.N.G.; Lo, I.M.C. 2004: Formation of haloacetic acids during monochloramination. Water Research (Oxford) 38(9): 2375-2383
Wenhai, C.H.U.; Naiyun, G.A.O.; Krasner, S.W.; Templeton, M.R.; Daqiang, Y.I.N. 2012: Formation of halogenated C―, N-DBPs from chlor(am)ination and UV irradiation of tyrosine in drinking water. Environmental Pollution (1987) 161: 8-14
Itoh, M.; Shiota, T.; Nishihara, M. 1986: Formation of hard paint films by electron beam-curing method and pigment effect on their physical properties - Bildung harter Farbschichten durch Elektronenstrahlaushaertung und Pigmenteinfluesse auf ihre physikalischen Eigenschaften. Tetsu-To-Hagane 72(9): 1328-1334
Zeng, D.; Yang, S.; Xiang, Z.D. 2012: Formation of hard surface layer on austenitic stainless steels via simultaneous chromising and nitriding by pack cementation process. Applied Surface Science 258(12): 5175-5178
Khor, K.A.; Yu, L.G.; Sundararajan, G. 2005: Formation of hard tungsten boride layer by spark plasma sintering boriding. Thin Solid Films 478(1-2): 232-237
Aharonian, F.A.; Khangulyan, D.; Costamante, L. 2008: Formation of hard very high energy gamma-ray spectra of blazars due to internal photon-photon absorption. Monthly Notices of the Royal Astronomical Society 387(3): 1206-1214
Uglov, V.V.; Remnev, G.E.; Kuleshov, A.K.; Astashinski, V.M.; Saltymalcov, M.S. 2010: Formation of hardened layer in WC-TiC-Co alloy by treatment of high intensity pulse ion beam and compression plasma flows. Surf. Coat. Technol 204(12-13): 1952-1956
Hashimoto, T. 2000: Formation of hardened layers on aluminium alloy surfaces by the plasma transferred arc process. Welding International 14(3): 173-177
Fedorov, V.A.; Belozerov, V.V.; Velikoselskaya, N.D. 1991: Formation of hardened surface layers by method of microarching oxidation in different electrolytes and under current regime changes. Fizika i Himia Obrabotki Materialov (1): 87-93
Lavrentiev, V.; Hammerl, C.; Rauschenbach, B.; Kukharenko, O. 2001: Formation of hardened surface layers in titanium under irradiation with intense ion beams. Scripta Materialia 44(4): 625-630
Hirose, A.; Kohno, W.; Nomura, D.; Kobayashi, K.F. 1992: Formation of hardfacing clad by laser cladding with blown powder. Tetsu-To-Hagane 78(10): 1585-1592
Kelemen, P.B.; Dick, H.J.B.; Quick, J.E. 1992: Formation of harzburgite by pervasive melt/rock reaction in the upper mantle. Nature (London) 358(6388): 635-641
Hayano, S.; Lee, J.A.N.G.H.O.; Ohnishi, Y.; Furuya, K.; Kikuchi, T.; Someya, T.; Oikawa, C.; Iida, Y.; Matsushita, H.; Kinouchi, T.; Manabe, Y. 1985: Formation of hazardous substances and mutagenicity of PAH produced during the combustion process in a diesel engine. Atmospheric Environment 19(6): 1009-1015
Ferris, J.P.; Ishikawa, Y. 1988: Formation of HCN and acetylene oligomers by photolysis of ammonia in the presence of acetylene: applications to the atmospheric chemistry of Jupiter. Journal of the American Chemical Society 110(13): 4306-4312
Eshchenko, G.; Kocher, T.; Kerst, C.; Temps, F. 2002: Formation of HCNO and HCN in the 193 nm photolysis of H2CCO in the presence of NO. Chemical Physics Letters 356(1-2): 181-187
Tochitskii, T.A.; Boltushkin, A.V.; Shadrov, V.G. 1995: Formation of HCP and FCC phases in electrodeposited films of cobalt and its alloys. Russian Journal of Electrochemistry 31(2): 178-181
De J Saldivar Garcia, A.; Medrano, A.M.; Salinas Rodriguez, A. 1999: Formation of Hcp martensite during the isothermal aging of an Fcc Co-27Cr-5Mo-0.05C orthopedic implant alloy. Metallurgical and Materials Transactions. A, Physical Metallurgy and Materials Science 30(5): 1177-1184
Pisarev, A.A.; Borisyuk, Y.V.; Varava, A.V.; Tsyplakov, V.N. 1998: Formation of HD molecules during desorption of deuterium from solids. J. Nucl. Mater 258263: 1138-1142
Shchekinov, Y.A.; Vasiliev, E.O. 2006: Formation of HD molecules in merging dark matter haloes. Monthly Notices of the Royal Astronomical Society 368(1): 454-460
Kida, S.; Takaoka, M.; Hussain, F. 1991: Formation of head-tail structure in a two-dimensional uniform straining flow. Physics of Fluids. A, Fluid Dynamics 3(11): 2688-2697
Seki, T.; Ichimura, K. 1990: Formation of head-to-tail and side-by-side aggregates of photochromic spiropyrans in bilayer membrane. Journal of Physical Chemistry (1952) 94(9): 3769-3775
Tikhomirova, M.M.; Belyatskaya, O.Y.A. 1993: Formation of heat-resistant gametes during oogenesis in Drosophila and the relationship of this property to the mutation process. Soviet Genetics 29(3): 332-336
Shimamune, Y.; Sakuraba, M.; Murota, J.; Tillack, B. 2004: Formation of heavily P-doped Si epitaxial film on Si(1 0 0) by multiple atomic-layer doping technique. Appl. Surf. Sci 224(1-4): 202-205
Yonggang, Y.A.N.G.; Nakazawa, M.; Suzuki, M.; Kimura, M.; Shirai, H.; Hanabusa, K. 2004: Formation of helical hybrid silica bundles. Chemistry of Materials 16(20): 3791-3793
Yamada, K.; Ihara, H.; Ide, T.; Fukumoto, T.; Hirayama, C. 1984: Formation of helical super structure from single-walled bilayers by amphiphiles with oligo-L-glutamic acid-head group. Chemistry Letters (10): 1713-1716
Bin, L.I. 2013: Formation of helicity in an armchair single-walled carbon nanotube during tensile loading. Computational Materials Science 74: 27-32
Jager, W.; Lasser, R.; Schober, T.; Thomas, G.J. 1983: Formation of helium bubbles and dislocation loops in tritium-charged vanadium - Formation de bulles d'hélium et boucles de dislocations dans le vanadium chargé par du tritium. Radiation effects 78(1-4): 165-176
Kobayashi, N.; Kojima, T.; Kaneko, Y. 1988: Formation of Helium cluster ions 4Hen+ (n≤15) in a liquid helium cooled drift tube. Journal of the Physical Society of Japan 57(5): 1528-1531
Kojima, T.M.; Kobayashi, N.; Kaneko, Y. 1992: Formation of helium cluster ions HHex+ (x≤14) and H3Hex+ (x≤13) in a very low temperature drift tube. Zeitschrift für Physik. D, Atoms, Molecules and Clusters 23(2): 181-185
Tanuma, H.; Sanderson, J.; Kobayashi, N. 1999: Formation of helium cluster ions N2He+n, COHe+n, and O2He+n (n ≤ 13) in cooled helium gas. Journal of the Physical Society of Japan 68(8): 2570-2575
Baldwin, M.J.; Doerner, R.P. 2010: Formation of helium induced nanostructure 'fuzz' on various tungsten grades. Journal of Nuclear Materials 404(3): 165-173
Binyukova, S.Y.; Chernov, I.I.; Kalin, B.A.; Khtet Vin, M. 2005: Formation of helium porosity in different materials during post-radiation annealing. Atomic Energy (New York, N.Y.) 99(2): 550-555
Zhanhui, Y.U.A.N.; Clegg, W.; Attfield, M.P. 2009: Formation of helix-containing rods in a hybrid inorganic―organic material. Journal of Solid State Chemistry 182(11): 3049-3054
Haugen, D.A.; Zegar, I.S. 1990: Formation of hemoglobin-benzo[α]pyrene adducts in human erythrocytes incubated with benzo[α]pyrene and hamster embryo cells. Toxicology (Amsterdam) 65(1-2): 109-122
Duda, V.I.; Vypov, M.G.; Sorokin, V.V.; Mityushina, L.L.; Lebedinskii, A.V. 1995: Formation of hemoprotein-containing extracellular structures by bacteria. Microbiology (New York) 64(1): 56-59
Tomioka, H.; Taketsuji, K. 1993: Formation of heptafulvene in reactions of [(methoxycarbonyl)methyl]phenylcarbene in the gas phases. Journal of Organic Chemistry 58(16): 4196-4197
Lopez, A.; Mascolo, G.; Tiravanti, G.; Passino, R. 1998: Formation of herbicide degradation by-products during groundwater disinfection : An LC-MS investigation. Journal of Analytical Chemistry (New York) 53(9): 856-860
Saito, K.; Ikegami, K.; Kuroda, S.I.; Tabe, Y.; Sugi, M. 1991: Formation of herringbone structure with Davydov splitting in cyanine dye-absorbed Langmuir-Blodgett films. Jpn. J. Appl. Phys 30(8): 1836-1840
Yamashita, H.; Ten Dijke, P.; Franzen, P.; Miyazono, K.; Heldin, C.H. 1994: Formation of hetero-oligomeric complexes of type I and type II receptors for transforming growth factor-β. Journal of Biological Chemistry 269(31): 20172-20178
Knicker, H.; Hatcher, P.G.; Gonzalezvila, F.J. 2002: Formation of heteroaromatic nitrogen after prolonged humification of vascular plant remains as revealed by nuclear magnetic resonance spectroscopy. J. Environ. Qual 31(2): 444-449
Tanase, T.; Ohizumi, T.; Kobayashi, K.; Yamamoto, Y. 1992: Formation of heterobicyclic compounds through successive insertion of isocyanides into a palladium-hydride bond. Journal of the Chemical Society. Chemical Communications (9): 707-708
Kondjoyan, A.; Chevolleau, S.; Greve, E.; Gatellier, P.; Santelhoutellier, V.; Bruel, S.; Touzet, C.; Portanguen, S.; Debrauwer, L. 2010: Formation of heterocyclic amines in slices of Longissimus thoracis beef muscle subjected to jets of superheated steam. Food Chemistry 119(1): 19-26
Bieniek, D.; Bahadir, M.; Korte, F. 1989: Formation of heterocyclic hazardous compounds by thermal degradation of organic compounds. Heterocycles (Sendai) 28(2): 719-722
Hara, T.; Ishizaki, A.; Ueda, S. 1986: Formation of heteroduplex molecules between plasmids pUH1 and pLS11 in polyglutamate-producing Bacillus strains. Agricultural and Biological Chemistry 50(9): 2391-2394
Murphy, S.M. 1988: Formation of heterogeneous dislocation structures during irradiation - Formation des structures de dislocations hétérogènes lors d'une irradiation. International Cnrs Meeting (1987) 3-4: 295-302
Batenkin, M.A.; Konev, A.N.; Mensov, S.N.; Chesnokov, S.A. 2011: Formation of Heterogeneous Polymer Structures During Photoinduced Crosslinking of Oligo(ester acrylates) in the Presence of a Nonpolymerizable Component. Polymer Science. Series A, Chemistry, Physics 53(7): 558-568
Shilov, V.V.; Dmitruk, N.V.; Tsukruk, V.V.; Polyatskova, N.V.; Lipatov, Y.S. 1985: Formation of heterogeneous structure in poly (tetramethylene glycol) induced by ionic end groups. Polymer Communications (Guildford) 26(1): 28-30
Sampieri, A.; Pronier, S.; Brunet, S.; Carrier, X.; Louis, C.; Blanchard, J.; Fajerwerg, K.; Breysse, M. 2010: Formation of heteropolymolybdates during the preparation of Mo and NiMo HDS catalysts supported on SBA-15: Influence on the dispersion of the active phase and on the HDS activity. Microporous and Mesoporous Materials 130(1-3): 130-141
Volk, T.; Cohen, O.; Geiger, B. 1987: Formation of heterotypic adherens-type junctions between L-CAM-containing liver cells and C-CAM-containing lens cell. Cell (Cambridge) 50(6): 987-994
Lopezcueto, G.; Duarte, M. 1989: Formation of hexacyanomanganate(II) in cyanide medium and kinetics and mechanism of its oxidation by chromate. Canadian Journal of Chemistry 67(2): 279-283
Niwano, M.; Kurita, K.; Takeda, Y.; Miyamoto, N. 1993: Formation of hexafluorosilicate on Si surface treated in NH4F investigated by photoemission and surface infrared spectroscopy. Applied Physics Letters 62(9): 1003-1005
Zhang, P.G.; Wang, K.Y.; Jiandong, L.I.A.N.G.; Guo, S.M. 2011: Formation of hexagonal AIN nanotowers and layered nanorods by direct nitridation of aluminum. Physica. E, Low-Dimentional Systems and Nanostructures 43(4): 934-937
Hagio, T.; Kobayashi, K.; Sato, T. 1994: Formation of hexagonal BN by thermal decomposition of melamine diborate. Nippon Seramikkusu Kyokai Gakujutsu Ronbunshi 102(11): 1051-1054
Seitz, M.; Plesnivy, T.; Schimossek, K.; Edelmann, M.; Ringsdorf, H.; Fischer, H.; Uyama, H.; Kobayashi, S. 1996: Formation of hexagonal columnar mesophases by linear and branched oligo- and polyamides. Macromolecules 29(20): 6560-6574
Shohoji, N.; Badie, J.M.; Granier, B.; Oliveira, F.A.C.; Fernandes, J.C.; Guerra Rosa, L. 2007: Formation of hexagonal η-MoC1-x phase at a temperature lower than 1660°C by solar radiation heating under presence of excess free carbon. International Journal of Refractory Metals and Hard Materials 25(3): 220-225
Yuan, C.A.O.; Ding, Z.J. 2014: Formation of hexagonal pattern of ferrofluid in magnetic field. Journal of Magnetism and Magnetic Materials 355: 93-99
Bhuyan, H.; Favre, M.; Valderrama, E.; Avaria, G.; Chuaqui, H.; Mitchell, I.; Wyndham, E.; Saavedra, R.; Paulraj, M. 2007: Formation of hexagonal silicon carbide by high energy ion beam irradiation on Si (10 0) substrate. Journal of Physics. D, Applied Physics 40(1): 127-131
Zhang, Y.; Iqbal, Z.; Vijayalakshmi, S.; Qadri, S.; Grebel, H. 2000: Formation of hexagonal-wurtzite germanium by pulsed laser ablation. Solid State Communications 115(12): 657-660
Berger, S.; Jakubka, F.; Schmuki, P. 2008: Formation of hexagonally ordered nanoporous anodic zirconia. Electrochemistry Communications 10(12): 1916-1919
Eberson, L.; Radner, F.; Lindgren, M. 1993: Formation of 1,2,4,5,6,8-hexamethylanthracene and its radical cation from 2,2',3,4',5,5',6-heptamethyldiphenylmethane in trifluoroacetic acid. Acta Chemica Scandinavica (Copenhagen 1989) 47(8): 835-840
Seong Hwan, S.O.N.G.; Yang, K.I.M.; Seff, K. 1991: Formation of hexasilver at the center of the large cavity. Three crystal structures of dehydrated Ag+- and Ca2+-exchanged zeolite A, Ag12-2xCax-A (x = 2, 3, and 4) treated with rubidium vapor. Journal of Physical Chemistry (1952) 95(24): 9919-9924
Lee, Y.; Nassaralla, C.L. 1998: Formation of hexavalent chromium by reaction between slag and magnesite-chrome refractory. Metallurgical and Materials Transactions. B, Process Metallurgy and Materials Processing Science 29(2): 405-410
Stoecklin, F.B.; Morikoferzwez, S.; Walter, P. 1986: Formation of hexose 6-phosphates from lactate+pyruvate+glutamate by a cell-free system from rat liver. Biochemical Journal (London 1906) 236(1): 61-70
Arranz, A. 2012: Formation of Hf- and Ta-aluminates by reactive ion beam mixing of X/Al interfaces (X = Hf or Ta). Thin Solid Films 520(15): 4902-4910
Xiang, Z.D.; Datta, P.K. 2003: Formation of Hf- and W-modified aluminide coatings on nickel-base superalloys by the pack cementation process. Materials Science and Engineering. A, Structural Materials : Properties, Microstructure and Processing 363(1-2): 185-192
Yamaguchi, M.; Sakoda, T.; Minakata, H.; Shiqin, X.I.A.O.; Morisaki, Y.; Ikeda, K.; Mishima, Y. 2006: Formation of HfSiON/SiO2/Si-substrate gate stack with low leakage current for high-performance high-κ misfets. Ieee Trans. Electron Devices 53(4): 923-925
Svensson, M.; Allard, B.; Duker, A. 2006: Formation of HgS : mixing HgO or elemental Hg with S, FeS or FeS2. Sci. Total Environ 368(1): 418-423
Jinping, L.I.U.; Xintang, H.U.A.N.G.; Yuanyuan, L.I.; Zikun, L.I.; Qingbo, C.H.I.; Guangyun, L.I. 2008: Formation of hierarchical CuO microcabbages as stable bionic superhydrophobic materials via a room-temperature solution-immersion process. Solid State Sciences 10(11): 1568-1576
Boss, A.P. 1991: Formation of hierarchical multiple protostellar cores. Nature (London) 351(6324): 298-300
Kondo, I.; Yoneyama, T.; Takenaka, O. 1992: Formation of high adhesive and pure Pt layers on TiO2. Journal of Vacuum Science and Technology. A. Vacuum, Surfaces, and Films 10(6): 3456-3459
Borman, V.D.; Tronin, I.V.; Tronin, V.N.; Troyan, V.I.; Johansson, B.; Skorodumova, N.V. 2008: Formation of high-and low-density clusters in a ID system. Physica. E, Low-Dimentional Systems and Nanostructures 40(3): 643-648
Nirmala, R.; Ki Taek, N.A.M.; Park, S.J.; Shin, Y.S.; Navamathavan, R.; Hak Yong, K.I.M. 2010: Formation of high aspect ratio polyamide-6 nanofibers via electrically induced double layer during electrospinning. Applied Surface Science 256(21): 6318-6323
Moening, J.P.; Thanawala, S.S.; Georgiev, D.G. 2009: Formation of high-aspect-ratio protrusions on gold films by localized pulsed laser irradiation. Applied Physics. A, Materials Science and Processing 95(3): 635-638
Jeong Soo, B.Y.U.N.; Byung Hak, L.E.E.; Park, J.S.; Sohn, D.K.; Sung Jun, C.H.O.I.; Jae Jeong, K.I.M. 1998: Formation of high conductivity WSix layer and its characterization as a gate electrode. Journal of the Electrochemical Society 145(9): 3228-3235
Okamoto, K.; Nakano, Y.; Tada, K. 1995: Formation of high-contrast periodic corrugations by optimizing optical parameters of photoresists in 325 nm laser holographic exposure. Jpn. J. Appl. Phys 34(2B): 1286-1292
Ichimura, N.; Kondo, H.; Harada, Y.; Hashimoto, S. 2000: Formation of high density color centers and laser ablation in alkali halide crystals. J. Lumin 87-89: 586-588
Tewksbury, S.K. 1983: Formation of high density electron-hole plasma in silicon metal-oxide-semiconductor transistors below 25°K. Journal of Applied Physics 54(2): 868-875
Nakamura, N.; Ohshima, T.; Nakagawa, K. 1992: Formation of high-density etch pits on a Si surface after low-temperature heating in an ultrahigh vacuum. Jpn. J. Appl. Phys 31(12A): 3775-3778
Hoshino, K.; Arakawa, Y. 2004: Formation of high-density GaN self-assembled quantum dots by MOCVD. J. Cryst. Growth 272(1-4): 161-166
Ito, A.; Muranaka, T.; Jiang, C.; Hasegawa, H. 2002: Formation of high-density hexagonal networks of InGaAs ridge quantum wires by atomic hydrogen-assisted selective molecular beam epitaxy. Appl. Surf. Sci 190(1-4): 231-235
Kawabe, M.; Yong Jin, C.H.U.N.; Nakajima, S.; Akahane, K. 1997: Formation of high-density quantum dot arrays by molecular beam epitaxy. Jpn. J. Appl. Phys 36(6B): 4078-4083
Kondo, H.; Ueyama, T.; Ikenaga, E.; Kobayashi, K.; Sakai, A.; Ogawa, M.; Zaima, S. 2008: Formation of high-density Si nanodots by agglomeration of ultra-thin amorphous Si films. Thin Solid Films 517(1): 297-299
Tabe, M.; Kumezawa, M.; Yamamoto, T.; Makita, S.; Yamaguchi, T.; Ishikawa, Y. 1999: Formation of high-density silicon dots on a silicon-on-insulator substrate. Appl. Surf. Sci 142(1-4): 553-557
Hernandezmolina, M.; Lorenzoluis, P.A.; Gili, P.; Ruizperez, C. 2003: Formation of high-dimensional frameworks through counterions: Structure of [Cr2(Bipy)2(H2O)2(μ-H2O)2(μ, λ-O2C)-C6H4-2-NH2].(NO3)3. H2O. Crystal Growth and Design 3(2): 273-277
Bartnitskaya, T.S.; Vlasova, M.V.; Lyashenko, V.I.; Serebryakova, T.I.; Timofeeva, I.I.; Tomita, T.V. 1993: Formation of high-dispersed boron nitride under carbothermal reduction in presence of lithium additions. Poroskovaa Metallurgia (Kiev) (1): 64-73
Ogura, K.; Cho, T.; Ando, A.; Tanaka, H.; Iida, M.; Ide, S.; Nakamura, M.; Maekawa, T.; Terumichi, Y.; Tanaka, S. 1986: Formation of high energy electron tail during rf plasma current start-up in the WT-12 tokamak. Journal of the Physical Society of Japan 55(1): 13-16
Mapkar, J.A.; Belashi, A.; Berhan, L.M.; Coleman, M.R. 2013: Formation of high loading flexible carbon nanofiber network composites. Composites Science and Technology 75: 1-6
Creasy, W.R.; Brenna, J.T. 1990: Formation of high mass carbon cluster ions from laser ablation of polymers and thin carbon films. The Journal of Chemical Physics 92(4): 2269-2279
Kadoya, Y.; Noge, H.; Kano, H.; Sakaki, H. 1993: Formation of high mobility two-dimensional electron gas at etch-regrown AlGaAs/GaAs interface prepared by chlorine gas etching and MBE in an UHV multichamber system. J. Cryst. Growth 127(1-4): 877-880
Yildirim, R.; Senkan, S.M. 1995: Formation of high molecular weight byproducts during the pyrolysis and oxidative pyrolysis of CH3Cl. Industrial and Engineering Chemistry Research 34(5): 1842-1852
Amerik, Y.B.; Dhirokova, L.A.; Toltchinsky, I.M.; Krentsel, B.A. 1984: Formation of high molecular weight polythiiranes in aqueous-organic media. die Makromolekulare Chemie 185(5): 899-904
Matsumoto, K.; Sakae, K.; Yamauchi, H.; Teraoka, Y. 2008: Formation of high performance ice slurry by W/O emulsion in ice storage (effective method to propagate supercooling dissolution). International Journal of Refrigeration 31(5): 832-840
Gnesin, G.G.; Shipilova, L.A.; Chernyshev, L.I.; Loikovsky, V.; Prez, A. 1994: Formation of high-porous silicon-carbide base ceramics. Poroskovaa Metallurgia (Kiev) (5-6): 48-54
Chayahara, A.; Kinomura, A.; Tsubouchi, N.; Heck, C.; Horino, Y. 2000: Formation of high purity films by negative ion beam sputtering using an ultra-high vacuum self-sputtering method. Mater. Trans. - Jim 41(1): 31-33
Wee, S.H.; Goyal, A.; Hsu, H.; Jing, L.I.; Heatherly, L.; Kim, K.; Aytug, T.; Sathyamurthy, S.; Mariappan Parans, P.A.R.A.N.T.H.A.M.A.N. 2007: Formation of high-quality, epitaxial La2Zr2O7 layers on biaxially textured substrates by slot-die coating of chemical solution precursors. Journal of the American Ceramic Society 90(11): 3529-3535
Chengshan, X.U.E.; Li, Y.A.N.G.; Cuimei, W.A.N.G.; Huizhao, Z.H.U.A.N.G.; Qinqin, W.E.I. 2003: Formation of high quality gallium nitride thin films on Ga-diffused Si(1 1 1) substrate. Applied Surface Science 210(3-4): 153-157
Landheer, D.; Tao, Y.; Hulse, J.E.; Quance, T.; Xu, D.X. 1996: Formation of high-quality nitrided silicon dioxide films using electron-cyclotron resonance chemical vapor deposition with nitrous oxide and silane. Journal of the Electrochemical Society 143(5): 1681-1684
Abe, T.; Suemitsu, M. 1998: Formation of high-quality octahedral and flattened diamond crystals on a-SiC/Si using inert-gas curtain combustion method. Journal of Crystal Growth 183(1-2): 183-189
Itoh, S.; Lo, G.Q.; Kwong, D.L.; Mathews, V.K.; Fazan, P.C. 1993: Formation of high-quality oxide/nitride stacked layers on rugged polysilicon electrodes by rapid thermal oxidation. Ieee Trans. Electron Devices 40(6): 1176-1178
Oliveira, M.H.; Schumann, T.; Fromm, F.; Koch, R.; Ostler, M.; Ramsteiner, M.; Seyller, T.; Lopes, J.M.J.; Riechert, H. 2013: Formation of high-quality quasi-free-standing bilayer graphene on SiC(0001) by oxygen intercalation upon annealing in air. Carbon (New York) 52: 83-89
Boichenko, A.M.; Yakovlenko, S.I. 2005: Formation of high-quality radiation of a copper-vapor laser in a master oscillator-amplifier system. Laser Physics 15(11): 1528-1535
Yoon, G.W.; Lo, G.Q.; Kim, J.; Han, L.K.; Kwong, D.L. 1994: Formation of high quality storage capacitor dielectrics by in-situ rapid thermal reoxidation of Si3N4 films in N2O ambient. IEEE Electron Device Letters 15(8): 266-268
Han, L.K.; Yoon, G.W.; Kim, J.; Yan, J.; Kwong, D.L. 1995: Formation of high quality ultrathin oxide/nitride (ON) stacked capacitors by in situ multiple rapid thermal processing. IEEE Electron Device Letters 16(8): 348-350
Kawakatu, N.; Wada, K. 2009: FORMATION OF HIGH-REDSHIFT (z > 6) QUASARS DRIVEN BY NUCLEAR STARBURSTS. The Astrophysical Journal 706(1): 676-686
Tomita, R.; Kimura, H.; Yasuda, M.; Maeda, K.; Ueno, S.; Tomizawa, T.; Kunimune, Y.; Nakamura, H.; Moritoki, M.; Iwai, H. 2013: Formation of high resistivity phases of nickel silicide at small area. Microelectronics and Reliability 53(5): 659-664
Zolper, J.C.; Schneider, R.P.; Lott, J.A. 1993: Formation of high resistivity regions in p-type Al0.5In0.5P by ion implantation. Applied Physics Letters 63(23): 3161-3163
Bezirganyan, P.H.; Aboyan, A.O.; Khzardzhyan, A.A. 1990: Formation of high resolution X-ray diffraction pictures of crystal imperfections, their distortionless detections and unique interpretation. Crystal Research and Technology (1979) 25(10): 1169-1182
Testa, F.; Crea, F.; Nastro, A.; Aiello, R.; Mostowicz, R.; Nagy, J.B. 1991: Formation of high silica zeolites from xM2O-yTAABr-Al2O3-zSiO2-3000 H2O gels (M=Li or K and TAA=tetramethyl, tetraethyl, and tetrabutyl). Zeolites 11(6): 633-638
Zhang, C.M.; Hui, X.; Yao, K.F.; Li, Z.G.; Chen, G.L. 2008: Formation of high strength Mg-Cu-Zn-Y alloys. Materials Science and Engineering. A, Structural Materials : Properties, Microstructure and Processing 491(1-2): 470-475
Oda, N.; Okada, T.; Sonobe, M.; Yamasaki, T.; Fukami, T. 2007: Formation of high-strength nano-micro duplex structures in electrodeposited Ni-based alloys. J. Alloys Compd 434-35: 283-285
Trionfetti, C.; Babich, I.V.; Seshan, K.; Lefferts, L. 2006: Formation of high surface area Li/MgO : Efficient catalyst for the oxidative dehydrogenation/cracking of propane. Applied Catalysis. A, General 310: 105-113
Hussein, G.A.M. 1994: Formation of high surface-area yttrium oxide by the thermal decomposition of different inorganic precursors. Thermochimica Acta 244: 139-151
Fuengho, C.H.E.N.; Tseungyuen, T.S.E.N.G. 1990: Formation of high-Tc superconducting Bi-Pb-Sr-Ca-Cu oxide films by spray pyrolysis of an oxalate suspension. Journal of the American Ceramic Society 73(4): 889-892
Berry, A.D.; Gaskill, D.K.; Holm, R.T.; Cukauskas, E.J.; Kaplan, R.; Henry, R.L. 1988: Formation of high Tc superconducting films by organometallic chemical vapor deposition. Applied Physics Letters 52(20): 1743-1745
Tatsumisago, M.; Tsuboi, S.; Tohge, N.; Minami, T. 1990: Formation of high-Tc superconductors from rapidly quenched Bi-Pb-Ca-Sr-Cu-O glasses. Journal of Non-Crystalline Solids 124(2-3): 167-173
Sedmale, G.; Sperberga, I.; Sedmalis, U.; Valancius, Z. 2006: Formation of high-temperature crystalline phases in ceramic from illite clay and dolomite. Journal of the European Ceramic Society 26(15): 3351-3355
Nan, L.I.; Wangyang, L.U.; Kemei, P.E.I.; Yuyuan, Y.A.O.; Wenxing, C.H.E.N. 2015: Formation of high-valent cobalt-oxo phthalocyanine species in a cellulose matrix for eliminating organic pollutants. Applied Catalysis. B, Environmental 163: 105-112
Usherenko, S.M.; Koval, O.I.; Usherenko, Y.S. 2003: Formation of high-velocity microjets in different variants of superdeep penetration. Journal of Engineering Physics and Thermophysics 76(1): 109-115
Akrajas Ali, U.M.A.R.; Oyatna, M.; Muhamad Mat, S.A.L.L.E.H.; Burhanuddin Yeop, M.A.J.L.I.S. 2009: Formation of High-Yield Gold Nanoplates on the Surface: Effective Two-Dimensional Crystal Growth of Nanoseed in the Presence of Poly(vinylpyrrolidone) and Cetyltrimethylammonium Bromide. Crystal Growth and Design 9(6): 2835-2840
Fox, J.R.; Pesa, F.A.; Curatolo, B.S. 1984: Formation of higher alcohols from methanol in the presence of metal acetylides. Journal of Catalysis 90(1): 127-138
Prikhna, T.A.; Gawalek, W.; Shmidt, C.; Dub, S.N.; Habisreuther, T.; Litzkendorf, D.; Nagorny, P.A.; Sverdun, V.B.; Weber, H.W.; Eisterer, M.; Noudem, J.; Dittrich, U.; Savchuk, Y.M.; Kozyrev, A.V.; Wendt, M.; Melnikov, V.S.; Turkevich, V.Z.; Sergienko, N.V.; Moshchil, V.E.; Dellith, J. 2009: Formation of Higher Borides During High-Pressure Synthesis and Sintering of Magnesium Diboride and Their Positive Effect on Pinning and Critical Current Density. Ieee Trans. Appl. Supercond 19(3): 2780-2783
Rulkens, R.; Peters, R. 2011: Formation of Higher Cyclic Oligomers in Polyamide-4,6. Journal of Polymer Science. Part A. Polymer Chemistry 49(9): 2090-2096
Mena, F.C.; Natario, J.; Tod, P. 2010: Formation of Higher-dimensional Topological Black Holes. Annales Henri Poincare 10(7): 1359-1376
Melnikov, Y.P.; Toptygin, I.N. 2006: Formation of higher harmonics of the galactic cosmic-ray distribution function. Astronomy Letters 32(7): 478-486
Monteverdi, S.; Amariglio, A.; Pareja, P.; Amariglio, H. 1997: Formation of higher hydrocarbons by hydrogenation of the adspecies preliminary formed on EUROPT-1 upon exposure to a CH4 dose. Journal of Catalysis 172(1): 259-262
King, T.A.; Hogervorst, W.; Kazak, N.S.; Khilo, N.A.; Ryzhevich, A.A. 2001: Formation of higher-order Bessel light beams in biaxial crystals. Optics Communications 187(4-6): 407-414
Hvelplund, P.; Liu, B.; Brndsted Nielsen, S.; Tomita, S. 2007: Formation of higher-order fullerene dianions in collisions with Na atoms. Eur. Phys. J., D At. Mol. Opt. Phys 43(1-3): 133-136
Yang, J.C.; Lee, S.Y.; Tseng, W.C.; Shu, Y.C.; Lu, J.C.; Shie, H.S.; Chen, C.C. 2012: Formation of Highly Aligned, Single-Layered, Hollow Fibrous Assemblies and the Fabrication of Large Pieces of PLEA Membranesa. Macromolecular Materials and Engineering 297(2): 115-122
Seto, T.; Maekawa, T.; Osone, S.; Kawamura, K.; Yamauchi, T.; Otani, Y. 2013: Formation of highly charged nanodroplets by condensation―electrospray device. Chem. Eng. Sci 85: 46-49
Ogihara, H.; Takenaka, S.; Yamanaka, I.; Tanabe, E.; Genseki, A.; Otsuka, K. 2006: Formation of highly concentrated hydrogen through methane decomposition over pd-based alloy catalysts. Journal of Catalysis 238(2): 353-360
Honda, T.; Lim, S.W.; Yanashima, K.; Inoue, K.; Hara, K.; Munekata, H.; Kukimoto, H.; Koyama, F.; Iga, K. 1996: Formation of highly conductive p-type ZnSe using Li3N diffusion. Jpn. J. Appl. Phys 35(7): 3878-3879
Ashok Kumar, C.H.A.K.R.A.B.O.R.T.Y.; Zhang, Q.I.; Seung Yong, C.H.A.I.; Lee, C.; Park, S.Y.; Jang, D.J.; Wan In, L.E.E. 2010: Formation of highly crystallized TiO2(B) and its photocatalytic behavior. Applied Catalysis. B, Environmental 93(3-4): 368-375
Kuangyuan, S.H.U.E.; Jienwei, Y.E.H. 1994: Formation of highly elongated flakes by splat quenching droplets on a moving substrate at a small angle. Materials Science and Engineering. A, Structural Materials : Properties, Microstructure and Processing 189(1-2): 241-245
Carnahan, E.M.; Lippard, S.J. 1992: Formation of highly functionalized metal-bound acetylenes by reductive coupling of carbnon monoxide and methyl isocyanide ligands. Journal of the American Chemical Society 114(11): 4166-4174
Poroshin, V.D. 1982: Formation of highly mineralized calcium chloride brines - Formation de saumures riches en chlorure de calcium. Lithology and Mineral Resources 16(6): 582-586
Dubonos, S.V.; Koveshnikov, S.V. 1990: Formation of highly mobile defects in GaAs under Ar-plasma etching. Physica Status Solidi. A. Applied Research 120(1): 77-81
Minamikawa, T.; Heya, A.; Niki, T.; Takano, M.; Yonezawa, Y.; Muroi, S.; Minami, S.; Masuda, A.; Umemoto, H.; Matsumura, H. 2006: Formation of highly moisture-resistive SiNx films on si substrate by Cat-CVD at room temperature. Thin Solid Films 501(1-2): 154-156
Sadana, D.K.; De Souza, J.P.; Cardone, F. 1991: Formation of highly n-doped gallium arsenide layers by rapid thermal oxidation followed by rapid thermal annealing of silicon-capped gallium arsenide. Applied Physics Letters 58(11): 1190-1192
Norenberg, H.; Harding, J.H. 1999: Formation of highly ordered Ca-overlayers on TiO2(110) surfaces studied by scanning tunneling microscopy and atomistic simulation. Appl. Surf. Sci 142(1-4): 174-176
Lokesh, B.H.A.T.T.A.C.H.A.R.Y.Y.A.; Islam Khan, M.; Fant, J.; Brewer, C.F. 1989: Formation of highly ordered cross-linked lattices between asparagine-linked oligosaccarides and lectins observed by electron microscopy. Journal of Biological Chemistry 264(20): 11543-11545
Elsafty, S.A.; Evans, J. 2002: Formation of highly ordered mesoporous silica materials adopting lyotropic liquid crystal mesophases. Journal of Material Chemistry 12(1): 117-123
Abhiraman, A.S.; Song, J.W. 1985: Formation of highly ordered poly(ethylene terephthalate) fibers. Journal of Polymer Science. Polymer Letters Edition 23(12): 613-615
Poudineh, M.; Sanaee, Z.; Gholizadeh, A.; Soleimani, S.; Mohajerzadeh, S. 2013: Formation of Highly Ordered Silicon Nanowires by a High-Speed Deep Etching. IEEE Transactions on Nanotechnology 12(5): 712-718
Tanaka, T.; Fujita, M.; Takeuchi, A.; Suzuki, Y.; Uesugi, K.; Ito, K.; Fujisawa, T.; Doi, Y.; Iwata, T. 2006: Formation of highly ordered structure in poly[(R)-3-hydroxybutyrate-co-(R)-3-hydroxyvalerate] high-strength fibers. Macromolecules 39(8): 2940-2946
Jones, R.; Tredgold, R.H.; Aliadib, Z.; Dawes, A.P.L.; Hodge, P. 1991: Formation of highly ordered thin films of perfluorinated carboxylic acid and azobenzenes by thermal evaporation. Thin Solid Films 200(2): 375-384
Tracz, A.; Kucinska, I.; Jeszka, J.K. 2003: Formation of highly ordered, unusually broad polyethylene lamellae in contact with atomically flat solid surfaces. Macromolecules 36(26): 10130-10132
Kyotani, T.; Sonobe, N.; Tomita, A. 1988: Formation of highly orientated graphite from polyacrylonitrile by using a two-dimensional space between montmorillonite lamellae. Nature (London) 331(6154): 331-333
Dean, K.M.; Pas, S.J.; Long, Y.U.; Ammala, A.; Hill, A.J.; Dong Yang, W.U. 2009: Formation of Highly Oriented Biodegradable Polybutylene Succinate Adipate Nanocomposites: Effects of Cation Structures on Morphology, Free Volume, and Properties. Journal of Applied Polymer Science 113(6): 3716-3724
Rajagopalan, T.; Reddy, G.B. 2000: Formation of highly oriented GeBiSe films from the as-deposited amorphous state by annealing. International Conference on Metallurgical Coatings and Thin Films 377-378: 501-506
Sonobe, N.; Kyotani, T.; Hishiyama, Y.; Shiraishi, M.; Tomita, A. 1988: Formation of highly oriented graphite from poly(acrylonitrile) prepared between the lamellae of montmorillonite. Journal of Physical Chemistry (1952) 92(24): 7029-7034
Heinz, N.A.; Ikeda, T.; Snyder, G.J. 2012: Formation of highly oriented large nanoscale In2Te3 precipitates in bulk Bi2Te3. Acta Materialia 60(11): 4461-4467
Kimura, T.; Tanaka, Y.; Ueda, H.; Isshiki, H. 2009: Formation of highly oriented layer-structured Er2SiO5 films by pulsed laser deposition. Physica. E, Low-Dimentional Systems and Nanostructures 41(6): 1063-1066
Kozuka, H.; Sakka, S. 1987: Formation of highly porous opaque gel from alkoxysilane solutions. Chemistry Letters (9): 1791-1794
Yamauchi, I.; Kajiwara, T.; Mase, T.; Saraoka, M. 2002: Formation of highly saturated Al-Ag precursor by rapid solidification for skeletal silver synthesis. Journal of Alloys and Compounds 336(1-2): 206-212
Weiler, M.; Robertson, J.; Sattel, S.; Veerasamy, V.S.; Jung, K.; Ehrhardt, H. 1995: Formation of highly tetrahedral amorphous hydrogenated carbon, ta-C:H. European Conference on Diamond, Diamond like and Related Materials 4(4): 268-271
Gujar, T.P.; Shinde, V.R.; Lokhande, C.D.; Mane, R.S.; Han, S.H. 2006: Formation of highly textured (111) Bi2O3 films by anodization of electrodeposited bismuth films. Applied Surface Science 252(8): 2747-2751
Prieto, P.; Zorn, G.; Arons, R.R.; Thierfeldt, S.; Gomez, M.E.; Kabius, B.; Sybertz, W.; Urban, K. 1989: Formation of highly textured Bi-Sr-Ca-Cu-O superconductor thick films by a rapid melting process. Solid State Communications 69(3): 235-240
Ali Umar, A.; Oyama, M.; Muhamad Mat, S.A.L.L.E.H.; Yeop Majlis, B. 2010: Formation of Highly Thin, Electron-Transparent Gold Nanoplates from Nanoseeds in Ternary Mixtures of Cetyltrimethylammonium Bromide, Poly(vinyl pyrrolidone), and Poly(ethylene glycol). Crystal Growth and Design 10(8): 3694-3698
Abe, T.; Suemitsu, M.; Miyamoto, N. 1993: Formation of highly uniform and dense diamond microcrystal thin films using a combustion flame surrounded by an inert-gas flow. Journal of Applied Physics 74(5): 3531-3533
Fujikura, H.; Kihara, M.; Hasegawa, H. 1998: Formation of highly uniform InGaAs ridge quantum wires by selective molecular beam epitaxy on novel InP patterned substrates. E-Mrs Spring Conference, Symposium D: Thin Films Epitaxial Growth and Nanostructures 336(1-2): 22-25
Kong, W.; Rodgers, D.; Hepburn, J.W. 1993: Formation of highly vibrationally excited states of O+2 by threshold pulsed field ionization using coherent XUV. Chemical Physics Letters 203(5-6): 497-502
Ohnishi, K.; Okuda, K.; Ohtsuki, T.; Nakayama, T.; Hiyama, Y.; Iwama, S.; Goto, N.; Nakajima, Y.; Musha, N.; Nakashima, T. 1984: Formation of hilar collaterals or cavernous transformation after portal vein obstruction by hepatocellular carcinoma: observations in ten patients. Gastroenterology (New York, Ny 1943) 87(5): 1150-1153
Nam, H.J.; Choi, D.K.; Lee, W.J. 2000: Formation of hillocks in Pt/Ti electrodes and their effects on short phenomena of PZT films deposited by reactive sputtering. Thin Solid Films 371(1-2): 264-271
Hansson, K.M.; Samuelsson, J.; Tullin, C.; Amand, L.E. 2004: Formation of HNCO, HCN, and NH3 from the pyrolysis of bark and nitrogen-containing model compounds. Combustion and Flame 137(3): 265-277
Pineau des Forets, G.; Roueff, E.; Flower, D.R. 1989: Formation of HOCO+ in magnetohydrodynamicasl shocks propagating in dark interstellar clouds. Journal of the Chemical Society. Faraday Transactions Ii 85: 1665-1671
Morgenstern, R.; Khemliche, H.; Hoekstra, R. 1998: Formation of hollow atoms at metal- and insulator surfaces : Surface physics. Applied Physics. A, Materials Science and Processing 67(6): 705-710
Mantilaka M M M, G.P.G.; Pitawala H M, T.G.A.; Rajapakse, R.M.G.; Karunaratne, D.G.G.P.; Upul Wijayantha, K.G. 2014: Formation of hollow bone-like morphology of calcium carbonate on surfactant/polymer templates. Journal of Crystal Growth 392: 52-59
Zhitomirsky, I.; Galor, L. 1999: Formation of hollow fibers by electrophoretic deposition. Materials Letters (General Ed.) 38(1): 10-17
Rwei, S.P. 2001: Formation of hollow fibers in the melt-spinning process. Journal of Applied Polymer Science 82(12): 2896-2902
Okamoto, M.; Huimin, H.U.A.N.G. 2012: Formation of hollow silica spheres with ordered mesoporous structure by treatment with dimethyl carbonate for selective decomposition of mesoporous silica core. Microporous and Mesoporous Materials 163: 102-109
Sun, R.X.; Lu, Y.P.; Li, M.S. 2003: Formation of hollow spheres of hydroxyapatite in plasma spraying. Surface Engineering 19(5): 392-394
Adachi, E.; Nagayama, K. 1996: Formation of holoferritin hexagonal arrays in secondary films due to Alder-type transition. Langmuir 12(7): 1836-1839
Romanov, O.; Ormachea, O.; Tolstik, A.; Diego, J.L.; Pereda Cubian, D.; Fanjul Velez, F. 2006: Formation of holographic gratings and dynamics of four-wave mixing in nonlinear microresonators. Proc. Spie Int. Soc. Opt. Eng: 625507.1-625507.7
Gnatyuk, V.A. 1998: Formation of homo- and hetero-interfaces in CdxHg1-xTe solid solutions by pulse laser irradiation. Appl. Surf. Sci 123-24: 517-522
Motohashi, T.; Kimura, T. 2008: Formation of Homo-Template Grains in Bi0.5Na0.5TiO3 Prepared by the Reactive-Templated Grain Growth Process. Journal of the American Ceramic Society 91(12): 3889-3895
Marton, D.; Tagliavini, G.; Zordan, M.; Wardell, J.L. 1990: Formation of homoallyl alcohols and 4-chlorotetrahydropyrans from allyl-stannanes, aldehydes and TiCl4 or Cp2TiCl2. Journal of Organometallic Chemistry 391(3): 295-305
Tianbo, L.I.U.; Chu, B. 2000: Formation of homogeneous gel-like phases by mixed triblock copolymer micelles in aqueous solution : FCC to BCC phase transition. J. Appl. Crystallogr 33: 727-730
Kaneko, T.; Sagitani, H. 1992: Formation of homogeneous liposomes with high trapping efficiency by the surface chemical method. Colloids and Surfaces 69(2-3): 125-133
Ogiyama, H.; Shiraishi, T.; Tsukuda, H.; Yamaguchi, M. 1993: Formation of homogeneous microduplex structures and cavity formation behavior during superplastic deformation in an (α+γ) duplex stainless steel. Zairyo 42(480): 1058-1064
Tobita, H. 1997: Formation of homogeneously branched polymers using terminal double bond polymerization. Polymer (Guildford) 38(7): 1705-1717
Steinmann, A.; Thimm, J.; Matwiejuk, M.; Thiem, J. 2010: Formation of Homooligosaccharides Using Base-Promoted Glycosylation of Unprotected Glycosyl Fluorides. Macromolecules 43(8): 3606-3612
Xutong, H.A.N.; Ye, T.I.A.N.; Lihua, W.A.N.G.; Changfa, X.I.A.O. 2008: Formation of Honeycomb Films Based on a Soluble Polyimide Synthesized from 2,2'-Bis [4-(3,4-dicarboxyphenoxy)phenyl]hexafluoropropane Dianhydride and 3,3'-Dimethyl-4,4'-diaminodiphenylmethane. Journal of Applied Polymer Science 107(1): 618-623
Ye, T.A.N.; Chong, D.A.I.; Huaiyu, D.I.N.G.; Qingze, J.I.A.O.; Lihua, W.A.N.G.; Yanqiao, S.H.I.; Biqian, L.I.U. 2007: Formation of honeycomb films from poly(L-lactide)-block-poly(ethylene glycol) via water-droplet templating. Polymer International 56(7): 834-839
Xue, J.I.A.N.G.; Jian, G.U.; Yan, S.H.E.N.; Shugen, W.A.N.G.; Xiuzhi, T.I.A.N. 2011: Formation of Honeycomb-Patterned Microporous Films Based on a Fluorinated Poly(siloxane imide) Segmented Copolymer. Journal of Applied Polymer Science 119(6): 3329-3337
Ye, T.I.A.N.; Shuang, L.I.U.; Huaiyu, D.I.N.G.; Lihua, W.A.N.G.; Biqian, L.I.U.; Yanqiao, S.H.I. 2006: Formation of honeycomb-patterned polyetherketone cardo (PEK-C) films in a highly humid atmosphere. Macromolecular Chemistry and Physics 207(21): 1998-2005
Yanbin, Y.U.N.; Wenyi, X.I.A.N.G.; Lihua, W.A.N.G.; Ying, H.U.A. 2011: Formation of honeycomb structure films from polysulfone in a highly humid atmosphere. Desalination Water Treat. (Print) 34(1-3): 136-140
Kim, D.G.; Kim, B.S.; Huh, D.S. 2011: Formation of honeycomb structure in poly(N-vinylcarbazole)/cellulose triacetate composite films. Journal of Reinforced Plastics and Composites 30(11): 945-956
Stenzel, M.H.; Barnerkowollik, C.; Davis, T.P. 2006: Formation of honeycomb-structured, porous films via breath figures with different polymer architectures. Journal of Polymer Science. Part A. Polymer Chemistry 44(8): 2363-2375
Tung, P.H.; Kuo, S.W.; Jeong, K.U.; Cheng, S.Z.D.; Huang, C.F.; Chang, F.C. 2007: Formation of honeycomb structures and superhydrophobic surfaces by casting a block copolymer from selective solvent mixtures. Macromolecular Rapid Communications 28(3): 271-275
Shiguang, M.I.A.O.; Fei, C.H.E.N. 2008: Formation of horizontal convective rolls in urban areas. Atmospheric Research 89(3): 298-304
Nishimoto, S.; Horibuchi, K.; Oki, K.; Kuwano, N.; Miyake, H.; Hiramatsu, K. 2001: Formation of horizontal dislocations in epitaxially lateral overgrown (ELO) GaN. Phys. Status Solidi, A, Appl. Res 188(2): 739-742
Liu, Y.A.N.G.; Dong, W.A.N.G.; Wan, L.J. 2012: Formation of host―guest structure at an electrified electrode surface: An electrochemical STM investigation. Electrochemistry Communications 17: 82-84
Kalenova, L.F.; Zolotikhin, V.A.; Kashuba, E.A.; Kostina, G.I.; Postnikova, T.F. 1992: Formation of host-parasitocenotic relationships in experimental mixed opisthorchiasis-tuberculosis pathology in different phases of Opisthorchis invasion. Zurnal Mikrobiologii, Epidemiologii i Immunobiologii (4): 20-22
Sakurai, Y.; Kotaki, K.; Kinugawa, T.; Arikawa, T. 1995: Formation of hot atomic hydrogen beam for surface diffraction experiments. Jpn. J. Appl. Phys 34(8A): 4195-4196
Kujanpaa, V.P.; David, S.A.; White, C.L. 1986: Formation of hot cracks in austenitic stainless steel welds-solidification cracking - Formation de fissures à chaud dans les soudures en acier austénitique. Welding Journal 65(8): 203s-212s
Sorokin, L.I. 1998: Formation of hot cracks in the weld when welding creep-resisting alloys. Welding International 12(1): 55-57
Sorokin, L.I. 2006: Formation of hot cracks in the weld zone in welding creep-resisting nickel alloys. Welding International 20(1): 72-76
Ryazantsev, V.U.; Fedoseev, V.A. 1998: Formation of hot cracks in welded joints in alloys of aluminium-magnesium-lithium and aluminium-copper-lithium systems. Welding International 12(4): 315-317
Botvina, A.S.; Mishustin, I.N. 2004: Formation of hot heavy nuclei in supernova explosions. Physics Letters. Section B 584(3-4): 233-240
Ichimura, T.; Mori, Y.; Nakashima, N.; Yoshihara, K. 1984: Formation of hot hexafluorobenzene in the 193 mm photolysis. Chemical Physics Letters 104(6): 533-537
Nagasawa, M.; Ida, S.; Bessho, T. 2008: Formation of Hot Planets by a Combination of Planet Scattering, Tidal Circularization, and the Kozai Mechanism. The Astrophysical Journal 678(1): 498-508
Subroto, T.; Miroux, A.; Bouffier, L.; Josserond, C.; Salvo, L.; Suery, M.; Eskin, D.G.; Katgerman, L. 2014: Formation of Hot Tear Under Controlled Solidification Conditions. Metallurgical and Materials Transactions. A, Physical Metallurgy and Materials Science 45(6): 2855-2862
Jie, W.A.N.Q.I.; Zhou, Y.A.O.H.E. 1989: Formation of hot-top segregation in steel ingot and effect of steel compositions - Formation d'une ségrégation hot-top dans un lingot d'acier et ses effets sur la composition des aciers. Metallurgical Transactions. B, Process Metallurgy 20B (5): 723-730
Hopper, J.P.; Leverington, D.W. 2014: Formation of Hrad Vallis (Mars) by low viscosity lava flows. Geomorphology (Amsterdam) 207: 96-113
Barnaby, S.N.; Nakatsuka, N.; Frayne, S.H.; Fath, K.R.; Banerjee, I.A. 2013: Formation of hyaluronic acid―ellagic acid microfiber hybrid hydrogels and their applications. Colloid and Polymer Science 291(3): 515-525
Hirose, A.; Kobayashi, K.F. 1995: Formation of hybrid clad layers by laser processing. Isij International 35(6): 757-763
Betti, M.G.; Gargiani, P.; Mariani, C.; Turchini, S.; Zema, N.; Fortuna, S.; Calzolari, A.; Fabris, S. 2012: Formation of Hybrid Electronic States in FePc Chains Mediated by the Au(110) Surface. Journal of Physical Chemistry. C 116(15): 8657-8663
Basova, T.V.; Kurochkina, N.M.; Tsivadze, A.Y.U.; Ray, A.K. 2010: Formation of Hybrid Inorganic/Organic Nanocomposites. Journal of Electronic Materials 39(2): 145-148
Sibirnyi, A.A.; Kulachkovskii, A.R.; Moroz, O.M. 1996: Formation of hybrid microbodies (glyoxyperoxisomes) containing alcohol oxidase and malate synthase in a regulatory mutant of the methylotrophic yeast Pichia methanolica. Microbiology (New York) 65(4): 400-403
Yamaki, T.; Shinohara, R.; Asai, K. 2001: Formation of hybrid monolayers and Langmuir-Blodgett-type multilayers from ammonium cations and TiO2 crystalline nanosheets. Thin Solid Films 393(1-2): 154-160
Umemura, Y.; Yamagishi, A.; Schoonheydt, R.; Persoons, A.; De Schryver, F. 2001: Formation of hybrid monolayers of alkylammonium cations and a clay mineral at an air-water interface : clay as an inorganic stabilizer for water-soluble amphiphiles. Thin Solid Films 388(1-2): 5-8
Spott, O.; Florian Stange, C. 2011: Formation of hybrid N2O in a suspended soil due to co-denitrification of NH2OH. Journal of Plant Nutrition and Soil Science (1999) 174(4): 554-567
Djukic, B.; Singh, M.A.; Lemaire, M.T. 2010: Formation of hybrid spin crossover polymer microspheres. Synthetic Metals 160(7-8): 825-828
Gotzneunhoeffer, F.; Zurbriggen, R. 2008: Formation of hydrate spheres in ternary binder systems - Hydratkugelbildung in ternären Bindemittelsystemen - Formation de grains d'hydrates dans les systèmes de liants ternaires. Zkg International 61(12): 68-76
Eshchenko, R.N.; Elkina, O.A.; Kurmaeva, L.D.; Sazonova, V.A.; Patselov, A.M.; Taluts, G.G. 2001: Formation of hydride phases upon hydrogenation of titanium single crystals. Physics of Metals and Metallography 91(4): 398-403
Avent, A.G.; Darwish, A.D.; Walton, D.R.M.; Heimbach, D.K.; Kroto, H.W.; Meidine, M.F.; Parsons, J.P.; Remars, C.; Roers, R.; Ohashi, O.; Taylor, R. 1994: Formation of hydrides of fullerene-C60 and fullerene-C70. Perkin Transactions 2(1): 15-22
Gaoyou Tian, F.E.N.G.T.A.O.; Zhan Daohong, X.I.A. 2002: Formation of hydro-peroxides and its effect on the stability of fluidized catalytic cracked diesel. Preprints - American Chemical Society. Division of Petroleum Chemistry 47(2): 148-150
Luca, R.; Townley, B.; Escobar, B.; Vargas, T. 2008: Formation of hydrocarbon gaseous compounds during bioleaching of copper sulphide minerals with mesophilic microorganisms. Hydrometallurgy (Amsterdam) 94(1-4): 54-57
Van der Riet, M.; Copperthwaite, R.G.; Hutchings, G.J. 1987: Formation of hydrocarbons from CO+H2 using a cobalt-manganese oxide catalyst: a 13C isotopic study. Journal of the Chemical Society. Faraday Transactions i 83(9): 2963-2972
Hardy, L.I.; Gillham, R.W. 1996: Formation of hydrocarbons from the reduction of aqueous CO2 by zero-valent iron. Environmental Science and Technology 30(1): 47-65
Hori, Y.; Murata, A.; Takahashi, R. 1989: Formation of hydrocarbons in the electrochemical reducation of carbon dioxide at a copper electrode in aqueous solution. Journal of the Chemical Society. Faraday Transactions i 85(8): 2309-2326
Lushichik, A. 1982: Formation of hydrochemical groundwater regime of karstifying carbonates deposits within the limits of irrigated land masses of the flat Crimea - La formation du régime hydrochimique de l'eau souterraine des dépôts calcaires en cours de karstification, à l'intérieur des limites des zones de terres irriguées de la Basse Crimée. Mem. - Assoc. Int. Hydrogeol 16(3): 307-315
Wells, J.D. 1984: Formation of hydrodynamically coupled networks of chain polymer molecules in solution: criteria for the transition from dilute to semidilute behaviour. Journal of the Chemical Society. Faraday Transactions i 80(5): 1233-1238
Pinilla, J.L.; Lazaro, M.J.; Suelves, I.; Moliner, R. 2011: Formation of hydrogen and filamentous carbon over a Ni―Cu―Al2O3 catalyst through ethane decomposition. Applied Catalysis. A, General 394(1-2): 220-227
Yatabe, H.; Yamada, K.; De los Rios, E.R.; Miller, K.J. 1995: Formation of hydrogen-assisted intergranular cracks in high strength steels. Fatigue and Fracture of Engineering Materials and Structures 18(3): 377-384
Jian, C.H.E.N.; Meirong, A.I.; Jianqiu, W.A.N.G.; Han, E.H.; Wei, K.E. 2009: Formation of hydrogen blister on AZ91 magnesium alloy during cathodic charging. Corrosion Science 51(5): 1197-1200
Orban, M.; Kiss, A.; Barcza, L. 1987: Formation of hydrogen-bonded complexes between phenol and some heterocyclic bases in carbon tetrachloride. Perkin Transactions 2(12): 1815-1817
Ahmed Farag, I.S.; Gad, A.M.; Elshabiny, A.M.; Rybakov, V.B. 1993: Formation of hydrogen-bonding adduct between 1-phenyl-2-amino pyrimidine and vaniline, C17H13N3O2. Crystal Research and Technology (1979) 28(8): 1127-1133
Hirashima, Y.; Tamanishi, H.; Sato, H.; Saito, K.; Naito, A.; Suzuki, A. 2004: Formation of hydrogen bonding in ionized poly(N-isopropylacrylamide) gels by continuous water exchange. Journal of Polymer Science. Part B. Polymer Physics 42(6): 1090-1098
Ershov Yu, B.; Meshcheryakov, V.G.; Enyakin Yu, P. 1992: Formation of hydrogen chloride in the pulverised coal flame when burning coal with a high chlorine content. Thermal Engineering 39(7): 394-397
Kozlovskii, V.I.; Korostelin Yu, V.; Krysa, A.B.; Skasyrskii Ya, K.; Popov Yu, M. 1995: Formation of hydrogen-containing complexes in ZnTe single crystals annealed in H-plasma and their decomposition under high-energy electron irradiation. Inorg. Mater 31(10): 1201-1205
Zhiming, G.A.O.; Jiansheng, Z.H.A.N.G.; Ruiyan, W.A.N.G. 2008: Formation of hydrogen in oxidative coupling of methane over BaCO3 and MgO catalysts. Journal of Natural Gas Chemistry 17(3): 238-241
Rytova, N.S. 1991: Formation of hydrogen molecules as a result to hydrogenation of n-type gallium arsenide. Soviet Physics. Semiconductors 25(6): 650-651
Leitch, A.W.R.; Weber, J.; Alex, V. 1999: Formation of hydrogen molecules in crystalline silicon. Materials Science and Engineering. B, Solid-State Materials for Advanced Technology 58(1-2): 6-12
Weuun, Z.H.E.N.G.; Jewitt, D.; Kaiser, R.I. 2006: Formation of hydrogen, oxygen, and hydrogen peroxide in electron-irradiated crystalline water ice. The Astrophysical Journal 639(1): 534-548
Morooka, S.; Shengchun, Y.A.N.; Kusakabe, K.; Akiyama, Y. 1995: Formation of hydrogen-permselective SiO2 membrane in macropores of α-alumina support tube by thermal decomposition of TEOS. Journal of Membrane Science 101(1-2): 89-98
Tyuleneva, N.K.; Shlyapnikov Yu, A. 1996: Formation of hydrogen peroxide during alkylphenol-inhibited oxidation of polyethylene. Polymer Science. Series B 38(1-2): 8-10
Radschuweit, A.; Huschka, C.; Ruttinger, H.H. 2000: Formation of hydrogen peroxide during the IVA induced disintegration of ketoprofen. Pharmazie 55(10): 782-783
Wells, D.H.; Delgass, W.N.; Thomson, K.T. 2004: Formation of hydrogen peroxide from H2 and O2 over a neutral gold trimer: a DFT study. Journal of Catalysis 225(1): 69-77
Hullar, T.; Patten, K.; Anastasio, C. 2012: Formation of hydrogen peroxide from illuminated polar snows and frozen solutions of model compounds. Atmospheric Environment (1994) 55: 127-134
Sauer, F.; Schafer, C.; Neeb, P.; Horie, O.; Moortgat, G.K. 1999: Formation of hydrogen peroxide in the ozonolysis of isoprene and simple alkenes under humid conditions. Atmospheric Environment (1994) 33(2): 229-241
Miyakawa, M.; Hosono, H.; Kawazoe, H. 1999: Formation of hydrogen tungsten bronze by proton implantation. Materials Research Bulletin 34(1): 115-121
Ishida, M.; Toida, M.; Shimizu, T.; Takenaka, S.; Otsuka, K. 2004: Formation of hydrogen without COx from carbon, water, and alkali hydroxide. Industrial and Engineering Chemistry Research 43(22): 7204-7206
Peng, W.A.N.G.; Xia, W.A.N.G.; Bin, Z.H.A.N.G.; Weimin, L.I.U. 2009: Formation of hydrogenated amorphous carbon films containing fullerene-like structures. Journal of Non-Crystalline Solids 355(34-36): 1742-1746
Pola, J.; Urbanova, M.; Bastl, Z.; Subrt, J.; Beckers, H. 1999: Formation of hydrogenated Si2O films by UV laser photolysis of disiloxane. Journal of Material Chemistry 9(10): 2429-2431
Chen, N.; Blowers, P.; Masel, R.I. 1999: Formation of hydronium and water-hydronium complexes during coadsorption of hydrogen and water on (2 x 1)Pt(110). Surface Science 419(2-3): 150-157
Sauer, J.; Horn, H.; Haeser, M.; Ahlrichs, R. 1990: Formation of hydronium ions on Brønsted sites in zeolitic catalysts : a quantum-chemical ab initio study. Chemical Physics Letters 173(1): 26-32
Davies, A.G.; Schiesser, C.H. 1989: Formation of hydroperoxide from singlet oxygen and propene: a duality of mechanisms by PM3. Tetrahedron Letters 30(50): 7099-7102
Morales, A.; Marmesat, S.; Dobarganes, M.C.; Marquezruiz, G.; Velasco, J. 2012: Formation of Hydroperoxy-, Keto- and Hydroxy-Dienes in FAME from Oils: Influence of Temperature and Addition of α-Tocopherol. Journal of the American Oil Chemists' Society 89(4): 675-684
Manova, D.; Gjevori, A.; Haberkorn, F.; Lutz, J.; Dimitrov, S.; Gerlach, J.W.; Valcheva, E.; Mandl, S. 2009: Formation of hydrophilic and photocatalytically active TiO2 thin films by plasma based ion implantation and deposition. Physica Status Solidi. A, Applications and Materials Science 206(1): 71-77
Matsuyama, H.; Berghmans, S.; Lloyd, D.R. 1998: Formation of hydrophilic microporous membranes via thermally induced phase separation. Journal of Membrane Science 142(2): 213-224
Behnisch, J.; Tyczkowski, J.; Gazicki, M.; Pela, I.; Hollander, A.; Ledzion, R. 1998: Formation of hydrophobic layers on biologically degradable polymeric foils by plasma polymerization. Pse-96 International Conference on Plasma Surface Engineering 98(1-3): 872-874
Carrera, E.; Gaya, P.; Medina, M.; Nunez, M. 1996: Formation of hydrophobic peptides during the manufacture of cheese from ewe, goat and cow milk. Int. Dairy Fed. Spec. Issue (3): 191-193
Tanaka, M.; In Yong, P.A.R.K.; Kuroda, K.; Kato, C. 1989: Formation of hydrotalcite-acrylate intercalation compounds and their heat-treated products. Bulletin of the Chemical Society of Japan 62(11): 3442-3445
Takahashi, H.; Yamaki, M.; Furuichi, R.; Seo, M. 1990: Formation of hydroxide films on aluminum in neutral phosphate solutions at high temperature. Kobutsugaku Zasshi 19(6): 387-396
Alen, R.; Lahtela, M.; Niemela, K.; Sjostrom, E. 1985: Formation of hydroxy carboxylic acids from softwood polysaccharides during alkaline pulping. Holzforschung 39(4): 235-238
Berthold, F.; Lindgren, C.T.; Lindstrom, M.E. 1998: Formation of (4-hydroxy-3-methoxyphenyl)-glyoxylic acid and (4-hydroxy-3,5-dimethoxyphenyl)-glyoxylic acid during polysulfide treatment of softwood and hardwood. Holzforschung 52(2): 197-199
Wang, L.N.; Luo, J.L. 2011: Formation of Hydroxyapatite Coating on Anodic Titanium Dioxide Nanotubes via an Efficient Dipping Treatment. Metallurgical and Materials Transactions. A, Physical Metallurgy and Materials Science 42(11): 3255-3264
Ohtsuka, Y.; Matsuura, M.; Chida, N.; Yoshinari, M.; Sumii, T.; Derand, T. 1994: Formation of hydroxyapatite coating on pure titanium substrates by ion beam dynamic mixing. Smmib'93: International Conference on Surface Modification of Metals by Ion Beams 65(1-3): 224-230
Tanaka, M.; Yoshizawa, K.; Tsuruma, A.; Sunami, H.; Yamamoto, S.; Shimomura, M. 2008: Formation of hydroxyapatite on a self-organized 3D honeycomb-patterned biodegradable polymer film. Colloids and Surfaces. A, Physicochemical and Engineering Aspects 313-314: 515-519
Siriphannon, P.; Kameshima, Y.; Yasumori, A.; Okada, K.; Hayashi, S. 2002: Formation of hydroxyapatite on CaSiO3 powders in simulated body fluid. Journal of the European Ceramic Society 22(4): 511-520
Aizawa, M.; Ishikawa, T.; Itatani, K.; Howell, F.S.; Kinoshita, M.; Kishioka, A. 1995: Formation of hydroxyapatite on composites in CaO-P2O5-SiO2-Al2O3 system by hydrothermal treatment. Nippon Seramikkusu Kyokai Gakujutsu Ronbunshi 103(10): 992-995
Abad, A.; Agullo, C.; Arno, M.; Seoane, E. 1986: Formation of 1-hydroxycyclopropanecarbonitrile ring in bicyclic systems. Tetrahedron (Oxford. Print) 42(9): 2429-2434
Cossy, J.; Bouzide, A.; Ibhi, S.; Aclinou, P. 1991: Formation of β -hydroxyketones from α,β-epoxyketones by photoinduced single electron transfer reactions. Tetrahedron (Oxford. Print) 47(37): 7775-7782
Germer, T.A.; Ho, W. 1990: Formation of hydroxyl and water from photoreaction of hydrogen and molecular oxygen coadsorbed on Pt(111). The Journal of Chemical Physics 93(2): 1474-1475
Stone, J.; Wiesenfeld, J.M.; Marcuse, D.; Burrus, C.A.; Yang, S. 1985: Formation of hydroxyl due to reaction of hydrogen with silica optical fiber preforms. Applied Physics Letters 47(3): 328-330
Dingsheng, Y.U.; Marchant, R.E. 1989: Formation of hydroxyl groups in plasma-polymerized N-vinyl-2-pyrrolidone by reduction with sodium borohydride. Macromolecules 22(7): 2957-2961
Leanderson, P.; Sahle, W. 1995: Formation of hydroxyl radicals and toxicity of tungsten oxide fibers. Toxicology in Vitro 9(2): 175-183
Gierer, J.; Jansbo, K.; Reitberger, T. 1993: Formation of hydroxyl radicals from hydrogen peroxide and their effect on bleaching of mechanical pulps. Journal of Wood Chemistry and Technology 13(4): 561-581
Joshi, A.A.; Locke, B.R.; Arce, P.; Finney, W.C. 1995: Formation of hydroxyl radicals, hydrogen peroxide and aqueous electrons by pulsed streamer corona discharge in aqueous solution. J. Hazard. Mater 41(1): 3-30
Oconnell, M.; Halliwell, B.; Moorhouse, C.P.; Aruoma, O.I.; Baum, H.; Peters, T. 1986: Formation of hydroxyl radicals in the presence of ferritin and haemosiderin: is haemosiderin formation a biological protective mechanism?. Biochemical Journal (London 1906) 234(3): 727-731
Narita, E.; Sato, T.; Shioya, T.; Ikari, M.; Okabe, T. 1984: Formation of hydroxylamidobis(sulfate) ion by the absorption of NO in aqueous solutions of Na2SO3 containing FeII-edta complex. Industrial and Engineering Chemistry Product Research and Development 23(2): 262-265
Srinivasan, S.; Glauert, H.P. 1990: Formation of 5-hydroxymethyl-2'-deoxyuridine in hepatic DNA of rats treated with γ-irradiation, diethylnitrosamine, 2-acetylaminofluorene or the peroxisome proliferator ciprofibrate. Carcinogenesis (New York. Print) 11(11): 2021-2024
Murkovic, M.; Bornik, M.A. 2007: Formation of 5-hydroxymethyl-2-furfural (HMF) and 5-hydroxymethyl-2-furoic acid during roasting of coffee. Mol. Nutr. Food Res. (Print) 51(4): 390-394
Neeb, P.; Sauer, F.; Horie, O.; Moortgat, G.K. 1997: Formation of hydroxymethyl hydroperoxide and formic acid in alkene ozonolysis in the presence of water vapour. Atmospheric Environment (1994) 31(10): 1417-1423
Digiovanni, J.; Nebzydoski, A.P.; Decina, P.C. 1983: Formation of 7-hydroxymethyl-12-methylbenz(a) anthracene-DNA adducts from 7,12-dimethylbenz(a) anthracene in mouse epidermis - Formation d'adduits entre le DNA et le 7-hydroxyméthyl-12-méthylbenz(a) anthracène à partir du 7,12-diméthylbenz(e) anthracène dans l'épiderme de souris. Cancer Research (Baltimore) 43(9): 4221-4226
Toribio, J.L.; Lozano, J.E. 1987: Formation of 5-hydroxymethylfurfural in clarified apple juice during heating at elevated temperatures - Formation d'hydroxy-5-méthylfurfural dans du jus de pomme clarifié au cours d'un chauffage à températures élevées. Lebensmittel-Wissenschaft + Technologie 20(2): 59-63
Gaitanos, T.; Lenske, H.; Mosel, U. 2009: Formation of hypernuclei in high energy reactions within a covariant transport model. Physics Letters. Section B 675(3-4): 297-304
Seungjoon, J.E.O.N.; Raksit, A.B.; Gellene, G.I.; Porter, R.F. 1985: Formation of hypervalent ammoniated radicals by neutralized ion beam techniques. Journal of the American Chemical Society 107(14): 4129-4133
Czarnetzki, L.R.; Janssen, L.J.J. 1992: Formation of hypochlorite, chlorate and oxygen during NaCl electrolysis from alkaline solutions at an RuO2/TiO2 anode. Journal of Applied Electrochemistry 22(4): 315-324
Zhang, Z.H.; Bian, X.F.; Wang, Y. 2003: Formation of hypoeutectic microstructure in a rapidly solidified Al-5 wt-%Sr alloy. Materials Science and Technology 19(6): 791-795
Barker, H.W.; Davies, J.A. 1990: Formation of ice on roads beneath bridges. Journal of Applied Meteorology (1988) 29(11): 1180-1184
Fitzsimons, S.; Mager, S.; Frew, R.; Clifford, A.; Wilson, G. 2012: Formation of ice-shelf moraines by accretion of sea water and marine sediment at the southern margin of the McMurdo Ice Shelf, Antarctica. Annals of Glaciology 53(60): 211-220
Grenet, T.; Giroud, F.; Joulaud, J.L.; Capitan, M. 2002: Formation of icosahedral Al-Cu-Fe quasicrystal in annealed metallic multilayers. Philosophical Magazine. A. Physics of Condensed Matter. Structure, Defects and Mechanical Properties 82(16): 2909-2922
Knapp, J.A.; Follstaedt, D.M. 1985: Formation of icosahedral Al(Mn) by directed energy processes - Formation de Al(Mn) icosaédrique par des processus d'énergie dirigés. Physical Review Letters 55(15): 1591-1594
Budai, J.D.; Aziz, M.J. 1986: Formation of icosahedral Al-Mn by ion implantation into oriented crystalline films - Formation de Al-Mn icosaédrique par implantation d'ions dans des couches minces cristallines orientées. Physical Review. B, Condensed Matter 33(4): 2876-2878
Singh, A.; Watanabe, M.; Kato, A.; Tsai, A.P. 2004: Formation of icosahedral-hexagonal H phase nano-composites in Mg-Zn-Y alloys. Scripta Materialia 51(10): 955-960
Yan, Z.J.; Dang, S.E.; Li, Q.S.; Hao, W.X.; Hu, Y. 2008: Formation of icosahedral phase in Zr65A17.5Ni10Cu12.5Ag5 metallic glass. Journal of Alloys and Compounds 452(2): 359-366
Inoue, A.; Tao, Z.H.A.N.G.; Saida, J.; Matsushita, M.; Min Wei, C.H.E.N.; Sakurai, T. 1999: Formation of icosahedral quasicrystalline phase in Zr-Al-Ni-Cu-M (M=Ag, Pd, Au or Pt) systems. Materials Transactions - Jim 40(10): 1181-1184
Tamura, R.; Katahoka, A.; Nishimoto, K.; Takeuchi, S. 2007: Formation of icosahedral quasicrystals in (Ag,Au)-based ternary systems. J. Non-Cryst. Solids 353(32-40): 3412-3416
Chen, M.W.; Inoue, A.; Zhang, T.; Sakai, A.; Sakurai, T. 2000: Formation of icosahedral quasicrystals in an annealed Zr65Al7.5Ni10Cu12.5Ag5 metallic glass. Philosophical Magazine Letters 80(4): 263-269
Oakes, M. 2011: Formation of Identity in Wartime El Salvador: Protective and Harmful Factors - Formation de l'identité en temps de guerre au Salvador: Facteurs protecteurs et nuisibles. Journal of Human Behavior in the Social Environment 21(5-8): 926-947
Hirashima, M.; Uede, T.; Huff, T.; Ishizaka, K. 1982: Formation of IgE-binding factors by rat T lymphocytes. IV: Mechanisms for the formation of IgE-suppressive factors by antigen stimulation of BCG-primed spleen cells. The Journal of Immunology (1950) 128(4): 1909-1916
Lipovskii, A.A.; Kolobkova, E.V.; Petrikov, V.D. 1998: Formation of II-VI nanocrystals in a novel phosphate glass. J. Cryst. Growth 184-85: 365-369
Mariette, H.; Charleux, M.; Hartmann, J.M.; Kany, F.; Martrou, D.; Marsal, L.; Magnea, N.; Rouviere, J.L. 1999: Formation of II-VI nanostructures on vicinal surfaces. Microelectronics Journal 30(4-5): 329-334
Hasegawa, H. 2003: Formation of III-V low dimensional structures and their applications to intelligent quantum chips. Microelectronics J 34(5-8): 341-345
Kavc, T.; Langer, G.; Polt, P.; Reichmann, K.; Kern, W. 2002: Formation of images and surface relief gratings in photosensitive polymers containing SCN groups. Macromolecular Chemistry and Physics 203(8): 1099-1105
Vasquez, B.J.; Hollweg, J.V. 1998: Formation of imbedded rotational discontinuities with nearly field aligned normals. Journal of Geophysical Research 103(A 1): 349-365
Williams, G.D.; Whittle, R.R.; Geoffroy, G.L.; Rheingold, A.L. 1987: Formation of imidates, amides, amines, carbamates, and ureas from the μ3-NPh ligands of Fe3(μ3-NPh)2(CO)9. Journal of the American Chemical Society 109(13): 3936-3945
Kegnaes, S.; Mielby, J.; Mentzel, U.V.; Christensen, C.H.; Riisager, A. 2010: Formation of imines by selective gold-catalysed aerobic oxidative coupling of alcohols and amines under ambient conditions. Green Chemistry 12(8): 1437-1441
Ibata, T.; Nakano, H. 1992: Formation of 2-imino-1,3-oxathioles and 2(3H)-oxazolethione by the rhodium(II) acetate-catalyzed reaction of α-diazocarbonyl compounds with isothiocyanates. Bulletin of the Chemical Society of Japan 65(11): 3088-3093
Fandos, R.; Meetsma, A.; Teuben, J.H. 1991: Formation of η1-iminoacyl compounds by insertion of isonitriles in pentamethylcyclopentadienyl-tetramethylfulvene compounds of titanium and zirconium. Intramolecular C-H activation of a pentamethylcyclopentadienyl group to give a tridentate ligand with two bridged cyclopentadienyl rings and a titanium-vinyl bond in the bridge. Molecular structure of [5:η1:η5-C5Me4CH2C(NHXyl)=CN(Xyl)CH2C5Me4]TiCl and Cp*[η5:η1-C5Me4CH2C(=NXyl)C(=NXyl)]ZrCl (Xyl = 2,6-Me2C6H3). Organometallics 10(8): 2665-2671
Antinolo, A.; Fajardo, M.; Gilsanz, R.; Lopezmardomingo, C.; Martinvilla, P.; Otero, A.; Kubicki, M.M.; Mugnier, Y.; El Krami, S.; Mourad, Y. 1993: Formation of η2-iminoacyl compounds by protonation of a ketenimine ligand in bis ((trimethylsilyl)cyclopentadienyl) compounds of niobium. Molecular structures of [Nb(η5-C5H4SiMe3)2Cl(η2(C,N)-EtPhHCCNPh)]+BF4- and [Nb(η5-C5H4SiMe3)2F(η2(C,N)-Ph2HCCNPh)]+BF4-. Organometallics 12(2): 381-388
De Kimpe, N.; Dhondt, L.; Moens, L. 1992: Formation of α-iminoketones and α-diimines versus favorskii rearrangement products from the reactions of α,α'-dibromoketones and primary amines. Tetrahedron (Oxford. Print) 48(15): 3183-3208
Clos, A.L.; Lasagnareeves, C.A.; Castillocarranza, D.L.; Sengupta, U.; Jackson, G.R.; Kelly, B.; Beachkofsky, T.M.; Kayed, R. 2011: Formation of immunoglobulin light chain amyloid oligomers in primary cutaneous nodular amyloidosis. British Journal of Dermatology (1951) 165(6): 1349-1354
Shiraishi, K.; Dokko, K.; Kanamura, K. 2005: Formation of impurities on phospho-olivine LiFePO4 during hydrothermal synthesis. J. Power Sources 146(1-2): 555-558
Krustok, J. 1992: Formation of impurity clusters in CdS:Ag:Cl. The Journal of Physics and Chemistry of Solids 53(4): 617-619
Filippov, A.P.; Gaidukov, G.N. 1993: Formation of impurity segregation in the field of elastic stresses near dislocations. Philosophical Magazine. A. Physics of Condensed Matter. Defects and Mechanical Properties 67(1): 109-125
Pankaow, N.; Panyakeow, S.; Ratanathammaphan, S. 2009: Formation of In0.5Ga0.5As ring-and-hole structure by droplet molecular beam epitaxy. J. Cryst. Growth 311(7): 1832-1835
Nakamura, I.; Kamiya, M.; Takano, I.; Sawada, Y.; Nakazawa, E. 1998: Formation of In-O films by Ar+ ion beam assisted reactive deposition. Smmib-97 International Conference on Surface Modification of Metals by Ion Beams 103-104: 83-86
Siciliano, T.; Tepore, A.; Micocci, G.; Genga, A.; Siciiiano, M.; Filippo, E. 2011: Formation of In2O3 Microrods in Thermal Treated InSe Single Crystal. Crystal Growth and Design 11(5): 1924-1929
Tanaka, M.; Motohisa, J.; Sakaki, H. 1990: Formation of in-plane superlattice and quantum wire states in grid inserted heterostructures with period of 80-160 Å : anisotropy of electronic states. Surf. Sci 228(1-3): 408-411
Vaidyanathan, R.; Stickney, J.L.; Cox, S.M.; Compton, S.P.; Happek, U. 2003: Formation of In2Se3 thin films and nanostructures using electrochemical atomic layer epitaxy. J. Electroanal. Chem. (1992) 559: 55-61
Xu, X.B.; Li, Z.M.; Yu, R.Z.; Ai, L.U.; Yang, M.B.; Rui, H.U.A.N.G. 2004: Formation of in situ CB/PET microfibers in CB/PET/PE composites by slit die extrusion and hot stretching. Macromolecular Materials and Engineering 289(6): 568-575
Paranthoen, C.; Bertru, N.; Platz, C.; Caroff, P.; Dehaese, O.; Folliot, H.; Le Corre, A.; Loualiche, S. 2003: Formation of InAs islands on InP(3 11)B surface by molecular beam epitaxy. Journal of Crystal Growth 257(1-2): 104-109
Nonogaki, Y.; Iguchi, T.; Fujiwara, Y.; Takeda, Y. 1997: Formation of InAs islands on InP (001) by droplet hetero-epitaxy. Appl. Surf. Sci 117-18: 665-669
Lee, J.; Kudo, K.; Kuniyoshi, S.; Tanaka, K.; Makita, Y.; Yamada, A. 1991: Formation of InAs microstructures on variously oriented GaAs substrates. J. Cryst. Growth 115(1-4): 164-168
Akahane, K.; Yamamoto, N. 2010: Formation of InAs quantum dots at ultrahigh growth rates. Physica ( E) Low-Dimens. Syst. Nanostrut 42(10): 2735-2738
Sato, J.; Asahi, H.; Tashima, T.; Hidaka, K.; Yamamoto, K.; Asami, K.; Gonda, S. 1998: Formation of InAs quantum dots by metalorganic molecular beam epitaxy using trisdimethylaminoarsenic and bisdimethylaminoarsenicchloride. J. Cryst. Growth 188(1-4): 363-369
Prucnal, S.; Trek, M.; Drozdziel, A.; Pyszniak, K.; Zhou, S.Q.; Kanjilal, A.; Skorupa, W.; Zuk, J. 2010: Formation of InAs quantum dots in silicon by sequential ion implantation and flash lamp annealing. Applied Physics. B, Lasers and Optics 101(1-2): 315-319
Wang, X.D.; Niu, Z.C.; Wang, H.; Feng, S.L. 2000: Formation of InAs quantum dots on low-temperature GaAs epi-layer. Journal of Crystal Growth 218(2-4): 209-213
Kawaguchi, K.; Matsuda, M.; Ekawa, M.; Yamamoto, T.; Kuwatsuka, H.; Sugawara, M.; Arakawa, Y. 2008: Formation of InAs1-xSbx quantum dots on vicinal InP(001) for 1.55-μm DFB laser applications. Journal of Crystal Growth 310(12): 2999-3003
Tan, Z.J.; Zhu, X.X.; Brown, G.R. 1994: Formation of inclusion complexes of cyclodextrins with bile salt anions as determined by NMR titration studies. Langmuir 10(4): 1034-1039
Harada, A.; Jun, L.I.; Kamachi, M. 1994: Formation of inclusion complexes of monodisperse oligo(ethylene glycol)s with α-cyclodextrin. Macromolecules 27(16): 4538-4543
Xintao, S.H.U.A.I.; Porbeni, F.E.; Min, W.E.I.; Bullions, T.; Tonelli, A.E. 2002: Formation of inclusion complexes of poly(3-hydroxybutyrate)s with cyclodextrins. 1. Immobilization of Atactic poly(R, S-3-hydroxybutyrate) and miscibility enhancement between poly(R, S-3-hydroxybutyrate) and poly(∈-caprolactone). Macromolecules 35(8): 3126-3132
Rutschmann, M.A.; Heiniger, J.; Pliska, V.; Solms, J. 1989: Formation of inclusion complexes of starch with different organic compounds. I. Method of evaluation of binding profiles with menthone as an example - Formation de complexes d'inclusion entre l'amidon et différents composés organiques. I. Méthode d'évaluation des profils de liaison en prenant la menthone comme exemple. Lebensmittel-Wissenschaft + Technologie 22(5): 240-244
Rutschmann, M.A.; Solms, J. 1990: Formation of inclusion complexes of strach with different organic compounds. II, Study of ligand binding in binary model systems with decanal, 1-naphthol, monostearate and monopalmitate. Lebensmittel-Wissenschaft + Technologie 23(1): 70-79
Dressler, L.; Reimann, R. 1987: Formation of inclusions in CaF2 single crystals. Crystal Research and Technology (1979) 22(4): 475-479
Kuznetsov, A.R.; Gornostyrev Yu, N.; Kuznetsov, R.I.; Polovov, I.B. 1996: Formation of incoherent nuclei of a new phase on dislocations. Physics of Metals and Metallography 82(5): 449-454
Mecozzi, M.; Pietroletti, M.; Gallo, V.; Conti, M.E. 2009: Formation of incubated marine mucilages investigated by FTIR and UV-VIS spectroscopy and supported by two-dimensional correlation analysis. Marine Chemistry 116(1-4): 18-35
Sangwal, K.; Kothari, A.; Arora, S.K. 2006: Formation of indentation cracks and origin of indentation size effect in cadmium tartrate pentahydrate single crystals. Surface Science 600(7): 1475-1486
Askin, R.G.; Ming, Z.H.O.U. 1998: Formation of independent flow-line cells based on operation requirements and machine capabilities. Iie Transactions 30(4): 319-329
Tan, B.K.; Chen, H.C.; Wei, F.C.; Ma, S.F.; Lan, C.T.; See, L.C.; Wan, Y.L. 2002: Formation of independently revascularized bowel segments using the rectus abdominis muscle flap: A rat model for jejunal prefabrication. Plastic and Reconstructive Surgery (1963) 109(2): 655-663
Senda, A.; Takano, Y.; Kanbayashi, Y.; Morita, K. 1994: Formation of indium-antimony alloy films by electroless plating. Hyomen Gijutsu 45(9): 923-928
Castaneda, L.; Garciavalenzuela, A.; Zironi, E.P.; Canetasortega, J.; Terrones, M.; Maldonado, A. 2006: Formation of indium-doped zinc oxide thin films using chemical spray techniques : The importance of acetic acid content in the aerosol solution and the substrate temperature for enhancing electrical transport. Thin Solid Films 503(1-2): 212-218
Senda, A.; Takano, Y.; Nakagawa, T. 1992: Formation of indium films by electroless plating. Hyomen Gijutsu 43(7): 694-699
Shigeno, E.; Seki, S.; Shimizu, K.; Sawada, Y.; Ogawa, M.; Shida, A.; Ide, M.; Yajima, A.; Yoshinaka, A. 2003: Formation of indium oxide thin films fabricated by a dip-coating process using indium 2-ethylhexanoate monohydroxide. Frontiers of Surface Engineering 2001 169-170: 566-570
Shigeno, E.; Shimizu, K.; Seki, S.; Ogawa, M.; Shida, A.; Ide, M.; Sawada, Y. 2002: Formation of indium-tin-oxide films by dip coating process using indium dipropionate monohydroxide. Toeo International Symposium on Transparent Oxide Thin Films for Electronics and Optics 411(1): 56-59
Yamamoto, Y.; Yamazaki, H. 1988: Formation of indolenine derivatives from dicobalt octaisocyanide and carbon polyhalide. Organometallics 7(11): 2411-2413
Randles, K.R.; Storr, R.C. 1987: Formation of indoles and quinolines by flash vacuum pyrolysis. Tetrahedron Letters 28(45): 5555-5558
Varelafernandez, A.; Varela, J.A.; Saa, C. 2012: Formation of Indoles, Dihydroisoquinolines, and Dihydroquinolines by Ruthenium-Catalyzed Heterocyclizations. Synthesis (Stuttgart) (21): 3285-3295
Henn, L.; Hickey, D.M.B.; Moody, C.J.; Rees, C.W. 1984: Formation of indoles, isoquinolines, and other fused pyridines from azidoacrylates. Journal of the Chemical Society. Perkin Transactions. i (9): 2189-2196
Bonneau, R.; Liu, M.T.H.; Lapouyade, R. 1989: Formation of indolizines by the addition of α-chloroacrylonitrite to pyridinium ylides: regioselectivity and Hammet correlation. Journal of the Chemical Society. Perkin Transactions. i (8): 1547-1548
Lisetskii, L.N.; Panikarskaya, V.D.; Batrachenko, L.A.; Kulishov, V.I.; Tolochko, A.S.; Borzenko, V.N.; Kirsch, S.G. 1993: Formation of induced helicoidal smectic in nematic mixtures with optically active additives. Crystallography Reports 38(4): 551-553
Alekseev, A.M.; Perov, V.M.; Mikhailova, A.V.; Beskov, V.S. 1996: Formation of industrial catalysts of ammonia production. 6. Catalysts of ammonia synthesis. Russian Chemical Industry 28(1): 28-37
Atuchin, V.V.; Golyashov, V.A.; Tereshchenko, O.E.; Kokh, K.A.; Korolkov, I.V.; Kozhukhov, A.S.; Kruchinin, V.N.; Makarenko, S.V.; Pokrovsky, L.D.; Prosvirin, I.P.; Romanyuk, K.N. 2011: Formation of Inert Bi2Se3(0001 ) Cleaved Surface. Crystal Growth and Design 11(12): 5507-5514
Kikkawa, S.; Kato, N.; Taya, N.; Tada, M.; Nakamura, F. 1995: Formation of infinite-layered (Ca1-xSrx)CuO2 and NaCuO2-type (Ca1-yNay)0.85 in tartrate route. Journal of the American Ceramic Society 78(5): 1387-1390
Wu, J.Y.; Hsu, H.Y.; Chan, C.C.; Wen, Y.S.; Tsai, C.; Lu, K.L. 2009: Formation of Infinite Linear Mercury Metal Chains Assisted by Face-to-Face π-π (Aryl-Aryl) Stacking Interactions. Crystal Growth and Design 9(1): 258-262
Matsuoka, M.; Liyuan, H.A.N.; Kitao, T.; Mochizuki, S.; Nakatsu, K. 1988: Formation of infrared absorbing dyes. Carbazole-naphthoquinone intermolecular charge-transfer complexes. Chemistry Letters 63(6): 905-908
Guryanov, G.M.; Cirlin, G.E.; Petrov, V.N.; Polyakov, N.K.; Golubok, A.O.; Tipissev, S.Y.A.; Musikhina, E.P.; Gubanov, V.B.; Samsonenko Yu, B.; Ledentsov, N.N. 1995: Formation of InGaAs/GaAs quantum dots by submonolayer molecular beam epitaxy. Ecoss-14 : European Conference on Surface Science 331-333: 414-418
Syrbu, N.N.; Dorogan, V.V.; Cretu, R.V. 1996: Formation of InGaAs layers onto InP substrates by liquid-phase epitaxy. Optics Communications 132(5-6): 449-451
Kitamura, M.; Nishioka, M.; Oshinowo, J.; Arakawa, Y. 1995: Formation of InGaAs quantum dots on GaAs multi-atomic steps by metalorganic chemical vapor deposition growth. Jpn. J. Appl. Phys 34(8B): 4376-4379
Elperin, T.; Kleeorin, N.; Rogachevskii, I. 1998: Formation of inhomogeneities in two-phase low-Mach-number compressible turbulent fluid flows. International Journal of Multiphase Flow 24(7): 1163-1182
Ivanov, V.B. 1990: Formation of inhomogeneous structure in the F region of the mid-latitude ionosphere. Radiophysics and Quantum Electronics 33(9): 753-757
Kelsey, H.M. 1988: Formation of Inner Gorges - Formation des Inner Gorges. Catena (Giessen) 15(5): 433-458
Juma, A.; Azarpira, A.; Fischer, C.H.; Wendler, E.; Dittrich, T. 2014: Formation of inorganic nanocomposites by filling TiO2 nanopores with indium and antimony sulfide precursor aerosols. Thin Solid Films 566: 19-22
Parvole, J.; Montfort, J.P.; Billon, L. 2004: Formation of inorganic/organic nanocomposites by nitroxide-mediated polymerization in bulk using a bimolecular system. Macromolecular Chemistry and Physics 205(10): 1369-1378
Mackenzie, K.J.D.; Komphanchai, S.; Vagana, R. 2008: Formation of inorganic polymers (geopolymers) from 2: 1 layer lattice aluminosilicates. Journal of the European Ceramic Society 28(1): 177-181
Nakane, K.; Ogata, N.; Kurokawa, Y. 2006: Formation of inorganic (TaC, TaN) fibers by thermal decomposition of cellulose acetate-tantalum alkoxide precursor gel fibers. Journal of Applied Polymer Science 100(6): 4320-4324
Haifeng, Y.A.N.G.; Yu, Y.A.N.G.; Yunhui, Y.A.N.G.; Hong, L.I.U.; Zongrang, Z.H.A.N.G.; Guoli, S.H.E.N.; Ruqin, Y.U. 2005: Formation of inositol hexaphosphate monolayers at the copper surface from a Na-salt of phytic acid solution studied by in situ surface enhanced raman scattering spectroscopy, Raman mapping and polarization measurement. Analytica Chimica Acta 548(1-2): 159-165
Hughes, P.J.; Drummond, A.H. 1987: Formation of inositol phosphate isomers in GH3 pituitary tumour cells stimulated with thyrotropin-releasing hormone: acute effects of lithium ions. Biochemical Journal (London 1906) 248(2): 463-470
Monaico, E.; Tiginyanu, I.; Volciuc, O.; Mehrtens, T.; Rosenauer, A.; Gutowski, J.; Nielsch, K. 2014: Formation of InP nanomembranes and nanowires under fast anodic etching of bulk substrates. Electrochemistry Communications 47: 29-32
Nair, M.T.S.; Rodriguezlazcano, Y.; Nair, P.K. 2000: Formation of InSb by annealing Sb2S3-In thin films. Journal of Crystal Growth 208(1-4): 248-252
Watanabe, Y.; Maeda, F.; Oshima, M. 1995: Formation of InSb nanocrystals on Se-terminated GaAs(001). J. Cryst. Growth 150(1-4): 863-867
Tsatsulnikov, A.F.; Ivanov, S.V.; Volovik, B.V.; Grundmann, M.; Bimberg, D.; Alferov, Z.I.; Kopev, P.S.; Kryganovskii, A.K.; Ledentsov, N.N.; Maximov, M.V.; Meltser, B.Y.; Nekludov, P.V.; Suvorova, A.A.; Titkov, A.N. 1998: Formation of InSb quantum dots in a GaSb matrix. Journal of Electronic Materials 27(5): 414-417
Tsatsulnikov, A.F.; Ivanov, S.V.; Titkov, A.N.; Volovik, B.V.; Grundmann, M.; Bimberg, D.; Alferov, Z.I.; Kopev, P.S.; Krestnikov, I.L.; Kryganovskii, A.K.; Ledentsov, N.N.; Maximov, M.V.; Meltser, B.Y.; Nekludov, P.V.; Suvorova, A.A. 1998: Formation of InSb quantum dots in a GaSb matrix using molecular-beam epitaxy. Microelectron. Eng 43-44: 85-90
Yudasaka, M.; Nakanishi, K. 1988: Formation of InSe and GaSe deposited films and their electrical properties. Thin Solid Films 156(1): 145-152
Jones, E.G.; Balster, W.J. 1994: Formation of insolubles in a Jet-A fuel: temperature effects. Prepr. - Am. Chem. Soc., Div. Pet. Chem 39(1): 78-81
Jones, E.G.; Balster, W.J. 1992: Formation of insolubles in jet fuels : effects of oxygen. Prepr. - Am. Chem. Soc., Div. Pet. Chem 37(2): 393-402
Haiying, T.A.N.G.; De Guzman, R.C.; Salley, S.O.; Ng, K.Y.S. 2008: Formation of Insolubles in Palm Oil-, Yellow Grease-, and Soybean Oil-Based Biodiesel Blends After Cold Soaking at 4 °C. Journal of the American Oil Chemists' Society 85(12): 1173-1182
Saito, G.; Izukashi, H.; Sakaguchi, K.I.; Kojima, N.; Yagubskii, E.B.; Shibata, M.; Yoshida, K.; Kushch, L.A.; Kondo, T.; Yamochi, H.; Drozdova, O.O.; Matsumoto, K.; Kusunoki, M. 2000: Formation of 2 : 1 insulating complexes of D+.D+.A2- alternating stack and a 4 : 1 semimetallic complex using M(dto)2 dianions (M = Ni, Pd or Pt and dto=dithiooxalate). Journal of Material Chemistry 10(4): 893-910
Gupta, V.K.; Khakhar, D.V. 1999: Formation of integral skin polyurethane foams. Polymer Engineering and Science 39(1): 164-176
Kim, I.C.; Yoon, H.G.; Lee, K.H. 2002: Formation of integrally skinned asymmetric polyetherimide nanofiltration membranes by phase inversion process. Journal of Applied Polymer Science 84(6): 1300-1307
Ganushkina, N.Y.; Pulkkinen, T.I.; Bashkirov, V.F.; Baker, D.N.; Xinlin, L.I. 2001: Formation of intense nose structures. Geophysical Research Letters 28(3): 491-494
Yoneyama, S.; Yamamoto, T.; Hasegawa, M.; Tsutsumi, O.; Kanazawa, A.; Shiono, T.; Ikeda, T. 2001: Formation of intensity grating in a polymer liquid crystal with a side-chain azobenzene moiety by photoinduced alignment change of mesogens. Journal of Material Chemistry 11(12): 3008-3013
Wan, Z.H.E.N.G.; Jing, Z.H.O.U.; Zhenqian, Z.H.A.N.G.; Likun, C.H.E.N.; Zhongfei, Z.H.A.N.G.; Yong, L.I.; Ning, M.A.; Piyi, D.U. 2014: Formation of intercalation compound of kaolinite-glycine via displacing guest water by glycine. Journal of Colloid and Interface Science (432): 278-284
Katahira, S.I.; Yasue, K.; Inagaki, M. 1998: Formation of intercalation compounds of mica with ε-caprolactam. Kobunshi Ronbunshu (Tokyo) 55(7): 401-406
Morikawa, A.; Yamaguchi, H.; Kakimoto, M.A.; Imai, Y. 1994: Formation of interconnected globular structure of silica phase in polyimide-silica hybrid films prepared by the sol-gel process. Chemistry of Materials 6(7): 913-917
Melekhov, R.K.; Krutsan, A.M.; Vasilik, A.V.; Vasilenko, I.I. 1985: Formation of intercrystallic cracks in screen tubs of steam power plant boilers - Entstehung von interkristallinen Rissen in Kuehlrohren von Waermekraftwerkskesseln. Fiziko-Himiceskaa Mehanika Materialov 21(5): 92-96
Jayaraman, A.; Balasubramaniam, V.; Valiyaveettil, S. 2006: Formation of interesting organic supramolecular structures in the solid-state self-assembly of triphenol adducts. Crystal Growth and Design 6(1): 150-160
Kainuma, R.; Ichinose, M.; Ohnuma, I.; Ishida, K. 2001: Formation of γ'/β interface morphologies in Ni-Al-X ternary diffusion couples. Materials Science and Engineering. A, Structural Materials : Properties, Microstructure and Processing 312(1-2): 168-175
Venkataraman, V.; Rajagopalan, S.; Manoravi, P.; Balamurugan, A.K.; Ramalingam, A.; Tyagib, A.K. 2003: Formation of interface silicides at room temperature in pulsed laser deposited Ti thin films on Si<100>. Materials Research Bulletin 38(14): 1835-1840
Saks, N.S.; Klein, R.B.; Yoon, S.; Griscom, D.L. 1991: Formation of interface traps in metal-oxide -semiconductor devices during isochronal annealing after irradiation at 78 K. Journal of Applied Physics 70(12): 7434-7442
Yeung, C.; Shi, A.C. 1999: Formation of interfaces in incompatible polymer blends : A dynamical mean field study. Macromolecules 32(11): 3637-3642
Kudela, R.; Kucera, M.; Olejnikova, B.; Elias, P.; Hasenohrl, S.; Novak, J. 2000: Formation of interfaces in InGaP/GaAs/InGaP quantum wells. Journal of Crystal Growth 212(1-2): 21-28
Hornvon Hoegen, M.; Alfalou, A.; Pietsch, H.; Muller, B.H.; Henzler, M. 1993: Formation of interfacial dislocation network in surfactant mediated growth of Ge on Si(111) investigated by SPA-LEED. I. Surface Science 298(1): 29-42
Yamauchi, T.; Kataoka, M.; Zaima, S.; Koide, Y.; Yasuda, Y. 1992: Formation of interfacial layers and electrical conduction mechanisms dominating the contact resistivity in refractory metal-Si contacts. Appl. Surf. Sci 56-58: 545-550
Paulasto, M.; Kivilahti, J.K. 1995: Formation of interfacial microstructures in brazing of Si3N4 with Ti-activated Ag-Cu filler alloys. Scripta Metallurgica et Materialia 32(8): 1209-1214
Yu, Y.J.; Yang, Y.Q.; Luo, X.; Feng, G.H.; Zhang, W.; Zhao, G.M.; Huang, B. 2013: Formation of interfacial microstructures of Mo- coating modified SiCf/Mo/Ti-6Al-4V composites. Surface and Interface Analysis 45(2): 667-671
Schroder, A.; Sitte, W.; Rom, I.; Kothleitner, G.; Hofer, F. 2001: Formation of interfacial nano-layers in the system Pt-Ni-O. Isrs International Symposium on the Reactivity of Solids 141-142: 177-183
Sun, J.R.; Shen, B.G.; Yeung, H.W.; Wong, H.K. 2002: Formation of interfacial phase and its effects on the magnetic and transport properties of the La0.82Ca0.18MnO3/La0.18Ca0.82MnO3 composite. Journal of Physics. D, Applied Physics 35(3): 173-176
Yang, Y.Q.; Zhu, Y.; Ma, Z.J.; Chen, Y. 2004: Formation of interfacial reaction products in SCS-6 SiC/Ti2AlNb composites. Scripta Materialia 51(5): 385-389
Wei, C.; Liu, Y.C.; Wan, J.B. 2009: Formation of interfacial structure of Sn-3.7Ag-0.9Zn eutectic solder with different Al additions. Journal of Materials Science. Materials in Electronics 20(9): 861-866
Harik, V.M.; Cairncross, R.A. 2000: Formation of interfacial voids in composites with a weakly bonded viscoplastic matrix. 1999 Asme Mechanics and Materials Conference. Symposium on Mechanics and Mechanisms of Failure of Interfaces in Engineering Materials 32(12): 807-820
Namiki, A.; Tanimoto, K.; Nakamura, T.; Murayama, N.; Suzaki, T. 1988: Formation of interfacing Si-O-Si species by hydrogenated Si radical depositions onto oxidized Si(111) surfaces. Surface Science 203(1-2): 129-142
Fukunaga, T.; Kaneko, K.; Kawano, R.; Ueda, K.; Yamada, K.; Nakada, N.; Kikuchi, M.; Barnard, J.S.; Midgley, P.A. 2014: Formation of Intergranular M23C6 in Sensitized Type-347 Stainless Steel. Isij International 54(1): 148-152
Yang, H.R.; Let, J.; Liangbin, L.I.; Qiang, F.U.; Li, Z.M. 2012: Formation of Interlinked Shish-Kebabs in Injection-Molded Polyethylene under the Coexistence of Lightly Cross-Linked Chain Network and Oscillation Shear Flow. Macromolecules 45(16): 6600-6610
Zegang, Q.I.U.; Junwei, W.A.N.G.; Maoqing, K.A.N.G.; Qifeng, L.I.; Xinkui, W.A.N.G. 2008: Formation of Intermediate and By-products in Synthesis of 4,4'-Methylenedimethyldiphenylcarbamate. Catalysis Letters 124(3-4): 243-249
Vitina, I.; Pelece, I.; Rubene, V.; Belmane, V.; Lubane, M.; Krumina, A.; Zarina, Z. 1997: Formation of intermediate intermetallic layers on interaction of electrodeposited Sn, Ni-Fe, Ni-B coatings with different metallic substrata. J. Adhes. Sci. Technol 11(6): 835-860
Kawaguchi, T.; Kawasaki, M.; Takayama, T.; Yamaguchi, M.; Yokoyama, J. 2008: Formation of intermediate-mass black holes as primordial black holes in the inflationary cosmology with running spectral index. Monthly Notices of the Royal Astronomical Society 388(3): 1426-1432
Bellmann, F.; Sowoidnich, T.; Damidot, D.; Ludwig, H.M. 2013: Formation of intermediate phases during hydration of C3S - Bildung von intermediären Phasen bei der Hydratation von C3S. Zkg International (Deutsch-Englische Ausgabe 1995) (2): 62-72
Gas, P.; Dheurle, F.M.; Legoues, F.K.; La Placa, S.J. 1986: Formation of intermediate phases, Ni3Si2 and Pt6SI5: nucleation, identification, and resistivity. Journal of Applied Physics 59(10): 3458-3466
Mitu, B.; Dinescu, G.; Budianu, E.; Ferrari, A.; Balucani, M.; Lamedica, G.; Dauscher, A.; Dinescu, M. 2001: Formation of intermediate SiCN interlayer during deposition of CNx on a-Si:H or a-SiC:H thin films. European Materials Research Society 2001-Symposium F Amorphous and Crystalline Silicon Carbide: Material and Applications 184(1-4): 96-100
Kluwe, M.; Kaimann, B.; Lorber, K.E.; Meier Zu Kocker, H. 1991: Formation of intermediates during flameless thermal decomposition of 1,2-dichlorobenzene. Chemosphere (Oxf.) 23(8-10): 1465-1471
Wang, H.; Loffler, T.; Baltruschat, H. 2001: Formation of intermediates during methanol oxidation : A quantitative DEMS study. J. Appl. Electrochem 31(7): 759-765
Wenjun, Z.H.U.; Huashan, L.I.U.; Jiang, W.A.N.G.; Zhanpeng, J.I.N. 2008: Formation of intermetallic compound (IMC) between Sn and Co substrate. Journal of Alloys and Compounds 456(1-2): 113-117
Vuorinen, V.; Yu, H.; Laurila, T.; Kivilahti, J.K. 2008: Formation of Intermetallic Compounds Between Liquid Sn and Various CuNix Metallizations. Journal of Electronic Materials 37(6): 792-805
Ping, L.I.U.; Thorvaldsson, T.; Dunlop, G.L. 1986: Formation of intermetallic compounds during solidification of dilute Al―Fe―Si alloys - Formation de composés intermétalliques durant la solidification d'alliages dilués Al-Fe-Si. Materials Science and Technology 2(10): 1009-1018