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List of PDF Full Texts available from EurekaMag Chapter 52930

Chapter 52930 contains a list of PDF Full Texts available from EurekaMag.





Leidel, N.; Chernev, P.; Havelius, K.G.V.; Schwartz, L.; Ott, S.; Haumann, M., 2013:
Electronic structure of an [FeFe] hydrogenase model complex in solution revealed by X-ray absorption spectroscopy using narrow-band emission detection

Conradie, J.; Ghosh, A., 2009:
Electronic structure of an iron-porphyrin-nitrene complex

Zhang, Y.; Wang, Y.; Xi, L.; Qiu, R.; Shi, X.; Zhang, P.; Zhang, W., 2014:
Electronic structure of antifluorite Cu2X (X = S, Se, Te) within the modified Becke-Johnson potential plus an on-site Coulomb U

Duffin, A.M.; England, A.H.; Schwartz, C.P.; Uejio, J.S.; Dallinger, G.C.; Shih, O.; Prendergast, D.; Saykally, R.J., 2011:
Electronic structure of aqueous borohydride: a potential hydrogen storage medium

Zhang, W.; Carravetta, V.; Plekan, O.; Feyer, V.; Richter, R.; Coreno, M.; Prince, K.C., 2009:
Electronic structure of aromatic amino acids studied by soft x-ray spectroscopy

Kan, E-Jun.; Xiang, H.J.; Yang, J.; Hou, J.G., 2007:
Electronic structure of atomic Ti chains on semiconducting graphene nanoribbons: a first-principles study

Ruffieux, P.; Cai, J.; Plumb, N.C.; Patthey, L.; Prezzi, D.; Ferretti, A.; Molinari, E.; Feng, X.; Müllen, K.; Pignedoli, C.A.; Fasel, R., 2013:
Electronic structure of atomically precise graphene nanoribbons

Anastasi, A.E.; Comba, P.; McGrady, J.; Lienke, A.; Rohwer, H., 2007:
Electronic structure of bispidine iron(IV) oxo complexes

Shieh, S.R.; Jarrige, I.; Wu, M.; Hiraoka, N.; Tse, J.S.; Mi, Z.; Kaci, L.; Jiang, J-Zhong.; Cai, Y.Q., 2014:
Electronic structure of carbon dioxide under pressure and insights into the molecular-to-nonmolecular transition

Kahaly, M.Upadhyay.; Waghmare, U.V., 2008:
Electronic structure of carbon doped boron nitride nanotubes: a first-principles study

Liu, C.P.; Ding, J.W., 2006:
Electronic structure of carbon nanotori: the roles of curvature, hybridization, and disorder

Plank, W.; Pfeiffer, R.; Schaman, C.; Kuzmany, H.; Calvaresi, M.; Zerbetto, F.; Meyer, J., 2010:
Electronic structure of carbon nanotubes with ultrahigh curvature

Kowalczyk, T.; Krylov, A.I., 2007:
Electronic structure of carbon trioxide and vibronic interactions involving Jahn-Teller states

Vologzhanina, A.V.; Savchenkov, A.V.; Dmitrienko, A.O.; Korlyukov, A.A.; Bushmarinov, I.S.; Pushkin, D.V.; Serezhkina, L.B., 2015:
Electronic structure of cesium butyratouranylate(VI) as derived from DFT-assisted powder X-ray diffraction data

Caruso, T.; Lenardi, C.; Agostino, R.G.; Amati, M.; Bongiorno, G.; Mazza, T.; Policicchio, A.; Formoso, V.; Maccallini, E.; Colavita, E.; Chiarello, G.; Finetti, P.; Sutara, F.; Skála, T.; Piseri, P.; Prince, K.C.; Milani, P., 2008:
Electronic structure of cluster assembled nanostructured TiO(2) by resonant photoemission at the Ti L(2,3) edge

Kumar, N.; Jaworska, M.; Lodowski, P.; Kumar, M.; Kozlowski, P.M., 2011:
Electronic structure of cofactor-substrate reactant complex involved in the methyl transfer reaction catalyzed by cobalamin-dependent methionine synthase

Hossain, E.; Jarrold, C.Chick., 2009 :
Electronic structure of coordinatively unsaturated molybdenum and molybdenum oxide carbonyls

Marom, N.; Hod, O.; Scuseria, G.E.; Kronik, L., 2008:
Electronic structure of copper phthalocyanine: a comparative density functional theory study

Evangelista, F.; Carravetta, V.; Stefani, G.; Jansik, B.; Alagia, M.; Stranges, S.; Ruocco, A., 2007:
Electronic structure of copper phthalocyanine: an experimental and theoretical study of occupied and unoccupied levels

Shrestha, K.; González-Delgado, J.M.; Blew, J.H.; Jakubikova, E., 2015:
Electronic structure of covalently linked zinc bacteriochlorin molecular arrays: insights into molecular design for NIR light harvesting

Mao, H.Kwang.; Shirley, E.L.; Ding, Y.; Eng, P.; Cai, Y.Q.; Chow, P.; Xiao, Y.; Shu, J.; Hemley, R.J.; Kao, C.; Mao, W.L., 2011:
Electronic structure of crystalline 4He at high pressures

Kanai, K.; Noda, Y.; Kato, K.; Kubo, T.; Iketaki, K.; Shimizu, A.; Ouchi, Y.; Nakasuji, K.; Seki, K., 2010:
Electronic structure of delocalized singlet biradical Ph2-IDPL solid film

Foley, J.B.; Gay, S.E.; Turmel, C.; Wei, G.; Jiang, T.; Narayanaswamy, R.; Foxman, B.M.; Vela, M.J.; Bruce, A.E.; Bruce, M.R., 2008:
Electronic structure of dinuclear gold(i) complexes

Kanai, K.; Yoshida, H.; Noda, Y.; Iwasaki, A.; Suizu, R.; Tsutumi, J'ya.; Imabayashi, H.; Ouchi, Y.; Sato, N.; Seki, K.; Awaga, K., 2009:
Electronic structure of disjoint diradical 4,4'-bis(1,2,3,5-dithiadiazolyl) thin films

Vukmirović, N.; Wang, L-Wang., 2008:
Electronic structure of disordered conjugated polymers: polythiophenes

Jeon, B.C.; Kim, C.H.; Moon, S.J.; Choi, W.Seok.; Jeong, H.; Lee, Y.S.; Yu, J.; Won, C.J.; Jung, J.H.; Hur, N.; Noh, T.W., 2011:
Electronic structure of double perovskite A2FeReO6 (A = Ba and Ca): interplay between spin-orbit interaction, electron correlation, and lattice distortion

Varchon, F.; Feng, R.; Hass, J.; Li, X.; Nguyen, B.Ngoc.; Naud, C.; Mallet, P.; Veuillen, J-Y.; Berger, C.; Conrad, E.H.; Magaud, L., 2007:
Electronic structure of epitaxial graphene layers on SiC: effect of the substrate

Acbas, G.; Kim, M-H.; Cukr, M.; Novák, V.; Scarpulla, M.A.; Dubon, O.D.; Jungwirth, T.; Sinova, J.; Cerne, J., 2009:
Electronic structure of ferromagnetic semiconductor Ga_{1-x}Mn_{x}As probed by subgap magneto-optical spectroscopy

Sutter, P.; Hybertsen, M.S.; Sadowski, J.T.; Sutter, E., 2009:
Electronic structure of few-layer epitaxial graphene on Ru(0001)

Mak, K.Fai.; Shan, J.; Heinz, T.F., 2010:
Electronic structure of few-layer graphene: experimental demonstration of strong dependence on stacking sequence

Nakajima, Y.; Nakao, Y.; Sakaki, S.; Tamada, Y.; Ono, T.; Ozawa, F., 2010:
Electronic structure of four-coordinate iron(I) complex supported by a bis(phosphaethenyl)pyridine ligand

Kummer, K.; Vyalikh, D.V.; Gavrila, G.; Preobrajenski, A.B.; Kick, A.; Bönsch, M.; Mertig, M.; Molodtsov, S.L., 2010:
Electronic structure of genomic DNA: a photoemission and X-ray absorption study

Gopakumar, G.; Ngan, V.Thi.; Lievens, P.; Nguyen, M.Tho., 2008:
Electronic structure of germanium monohydrides Ge(n)H, n = 1-3

Goodrich, L.E.; Paulat, F.; Praneeth, V.K.K.; Lehnert, N., 2010:
Electronic structure of heme-nitrosyls and its significance for nitric oxide reactivity, sensing, transport, and toxicity in biological systems

Atak, K.; Golnak, R.; Xiao, J.; Suljoti, E.; Pflüger, M.; Brandenburg, T.; Winter, B.; Aziz, E.F., 2015:
Electronic structure of hemin in solution studied by resonant X-ray emission spectroscopy and electronic structure calculations

Tozuka, A.; Ohgo, Y.; Ikezaki, A.; Taniguchi, M.; Nakamura, M., 2011:
Electronic structure of highly ruffled low-spin iron(III) porphyrinates with electron withdrawing heptafluoropropyl groups at the meso positions

Fahlman, M.; Crispin, A.; Crispin, X.; Henze, S.K.M.; de Jong, M.P.; Osikowicz, W.; Tengstedt, C.; Salaneck, W.R., 2007:
Electronic structure of hybrid interfaces for polymer-based electronics

Henzler, K.; Guttmann, P.; Lu, Y.; Polzer, F.; Schneider, G.; Ballauff, M., 2013:
Electronic structure of individual hybrid colloid particles studied by near-edge X-ray absorption fine structure (NEXAFS) spectroscopy in the X-ray microscope

Lange, K.M.; Aziz, E.F., 2013:
Electronic structure of ions and molecules in solution: a view from modern soft X-ray spectroscopies

Medjanik, K.; Kutnyakhov, D.; Nepijko, S.A.; Schönhense, G.; Naghavi, S.; Alijani, V.; Felser, C.; Koch, N.; Rieger, R.; Baumgarten, M.; Müllen, K., 2010:
Electronic structure of large disc-type donors and acceptors

Elles, C.G.; Rivera, C.A.; Zhang, Y.; Pieniazek, P.A.; Bradforth, S.E., 2009:
Electronic structure of liquid water from polarization-dependent two-photon absorption spectroscopy

Fister, T.T.; Schmidt, M.; Fenter, P.; Johnson, C.S.; Slater, M.D.; Chan, M.K.Y.; Shirley, E.L., 2011:
Electronic structure of lithium battery interphase compounds: comparison between inelastic x-ray scattering measurements and theory

Katukuri, V.M.; Roszeitis, K.; Yushankhai, V.; Mitrushchenkov, A.; Stoll, H.; van Veenendaal, M.; Fulde, P.; van den Brink, J.; Hozoi, L., 2014:
Electronic structure of low-dimensional 4d(5) oxides: interplay of ligand distortions, overall lattice anisotropy, and spin-orbit interactions

Bose, M.; Moula, G.; Sarkar, S., 2013:
Electronic structure of monodithiolated iron-oxotungsten heterometallic complexes: integer-spin Fe-W assembly

Kapre, R.R.; Bothe, E.; Weyhermüller, T.; DeBeer George, S.; Wieghardt, K., 2007:
Electronic structure of neutral and monoanionic tris(benzene-1,2-dithiolato)metal complexes of molybdenum and tungsten

Desrochers, P.J.; Sutton, C.A.; Abrams, M.L.; Ye, S.; Neese, F.; Telser, J.; Ozarowski, A.; Krzystek, J., 2012:
Electronic structure of nickel(II) and zinc(II) borohydrides from spectroscopic measurements and computational modeling

Kumar, N.; Kuta, J.; Galezowski, W.; Kozlowski, P.M., 2013:
Electronic structure of one-electron-oxidized form of the methylcobalamin cofactor: spin density distribution and pseudo-Jahn-teller effect

Liu, K-Yu.; Yu, J-Shiang.K., 2015:
Electronic structure of open-shell tetrahedral {Fe(NO)2}(9) dinitrosyliron complexes

Ding, H.; Nakayama, K.; Richard, P.; Souma, S.; Sato, T.; Takahashi, T.; Neupane, M.; Xu, Y-M.; Pan, Z-H.; Fedorov, A.V.; Wang, Z.; Dai, X.; Fang, Z.; Chen, G.F.; Luo, J.L.; Wang, N.L., 2011:
Electronic structure of optimally doped pnictide Ba0.6K0.4Fe2As2: a comprehensive angle-resolved photoemission spectroscopy investigation

Li, X.; Paldus, J., 2008:
Electronic structure of organic diradicals: Evaluation of the performance of coupled-cluster methods

Uzunova, E.L.; Mikosch, H.; Nikolov, G.St., 2008:
Electronic structure of oxide, peroxide, and superoxide clusters of the 3d elements: a comparative density functional study

Planas, N.; Vigara, L.; Cady, C.; Miró, P.; Huang, P.; Hammarström, L.; Styring, Sörn.; Leidel, N.; Dau, H.; Haumann, M.; Gagliardi, L.; Cramer, C.J.; Llobet, A., 2012:
Electronic structure of oxidized complexes derived from cis-[Ru(II)(bpy)2(H2O)2]2+ and its photoisomerization mechanism

Weszka, J.; Bednarski, H.; Domański, M., 2009:
Electronic structure of poly(azomethine) thin films

Ling, Y.; Van Mierloo, S.; Schnegg, A.; Fehr, M.; Adriaensens, P.; Lutsen, L.; Vanderzande, D.; Maes, W.; Goovaerts, E.; Van Doorslaer, S., 2014:
Electronic structure of positive and negative polarons in functionalized dithienylthiazolo[5,4-d]thiazoles: a combined EPR and DFT study

Ma, Z.; Rissner, F.; Wang, L.; Heimel, G.; Li, Q.; Shuai, Z.; Zojer, E., 2011:
Electronic structure of pyridine-based SAMs on flat Au(111) surfaces: extended charge rearrangements and Fermi level pinning

Huang, S-Wen.; Jeng, H-Tay.; Lin, J-Y.; Chang, W.J.; Chen, J.M.; Lee, G.H.; Berger, H.; Yang, H.D.; Liang, K.S., 2009:
Electronic structure of pyrochlore Cd(2)Re(2)O(7)

Radoń, M.; Broclawik, E.; Pierloot, K., 2010:
Electronic structure of selected FeNO7 complexes in heme and non-heme architectures: a density functional and multireference ab initio study

Kilina, S.; Batista, E.R.; Yang, P.; Tretiak, S.; Saxena, A.; Martin, R.L.; Smith, D.L., 2009:
Electronic structure of self-assembled amorphous polyfluorenes

Lattelais, M.; Pauzat, F.; Pilmé, J.; Ellinger, Y., 2008:
Electronic structure of simple phosphorus containing molecules [C,xH,O,P] candidate for astrobiology (x=1, 3, 5)

Nakamura, K.; Ikezaki, A.; Ohgo, Y.; Ikeue, T.; Neya, S.; Nakamura, M., 2008:
Electronic structure of six-coordinate iron(III) monoazaporphyrins

Praneeth, V.K.K.; Paulat, F.; Berto, T.C.; George, S.DeBeer.; Näther, C.; Sulok, C.D.; Lehnert, N., 2008:
Electronic structure of six-coordinate iron(III)-porphyrin NO adducts: the elusive iron(III)-NO(radical) state and its influence on the properties of these complexes

Rojisha, V.Chalil.; De, S.; Parameswaran, P., 2012:
Electronic structure of six-membered N-heterocyclic carbenes and its heavier analogues: reactivity of the lone pair versus the exocyclic double bond

Liao, M-Sheng.; Watts, J.D.; Huang, M-Ju., 2007:
Electronic structure of some substituted iron(II) porphyrins. Are they intermediate or high spin?

Javan, A.Jebelli.; Javan, M.Jebeli., 2015:
Electronic structure of some thymol derivatives correlated with the radical scavenging activity: theoretical study

Linden, S.; Zhong, D.; Timmer, A.; Aghdassi, N.; Franke, J.H.; Zhang, H.; Feng, X.; Müllen, K.; Fuchs, H.; Chi, L.; Zacharias, H., 2012:
Electronic structure of spatially aligned graphene nanoribbons on Au(788)

Heidari, I.; Pal, S.; Pujari, B.S.; Kanhere, D.G., 2007:
Electronic structure of spherical quantum dots using coupled cluster method

Boyko, T.D.; Hunt, A.; Zerr, A.; Moewes, A., 2013:
Electronic structure of spinel-type nitride compounds Si3N4, Ge3N4, and Sn3N4 with tunable band gaps: application to light emitting diodes

Brown, M.A.; Seidel, R.; Thürmer, S.; Faubel, M.; Hemminger, J.C.; van Bokhoven, J.A.; Winter, B.; Sterrer, M., 2011:
Electronic structure of sub-10 nm colloidal silica nanoparticles measured by in situ photoelectron spectroscopy at the aqueous-solid interface

Novak, I.; Kovac, B., 2008 :
Electronic structure of substituted benzoquinones and quinonechloroimides

Pan, Z-H.; Camacho, J.; Upton, M.H.; Fedorov, A.V.; Howard, C.A.; Ellerby, M.; Valla, T., 2011:
Electronic structure of superconducting KC8 and nonsuperconducting LiC6 graphite intercalation compounds: evidence for a graphene-sheet-driven superconducting state

Vitali, L.; Fabris, S.; Conte, A.Mosca.; Brink, S.; Ruben, M.; Baroni, S.; Kern, K., 2008:
Electronic structure of surface-supported bis(phthalocyaninato) terbium(III) single molecular magnets

Becker, J.Nils.; Bauer, J.; Giehr, A.; Chu, P.Ieng.; Kunkel, N.; Springborg, M.; Kohlmann, H., 2014:
Electronic structure of ternary rhodium hydrides with lithium and magnesium

Cobián, M.; Alemany, P.; García, A.; Canadell, E., 2009:
Electronic structure of the A(8)Tr(11) (A = K, Rb, Cs; Tr = Ga, In, Tl) Zintl phases: possible chemical reasons behind their activated versus non activated conductivity

Kulik, L.V.; Epel, B.; Lubitz, W.; Messinger, J., 2007:
Electronic structure of the Mn4OxCa cluster in the S0 and S2 states of the oxygen-evolving complex of photosystem II based on pulse 55Mn-ENDOR and EPR spectroscopy

Pillay, D.; Johannes, M.D.; Mazin, I.I., 2008:
Electronic structure of the NaxCoO2 surface

Gromov, E.V.; Burghardt, I.; Köppel, H.; Cederbaum, L.S., 2007:
Electronic structure of the PYP chromophore in its native protein environment

Kornobis, K.; Kumar, N.; Lodowski, P.; Jaworska, M.; Piecuch, P.; Lutz, J.J.; Wong, B.M.; Kozlowski, P.M., 2013:
Electronic structure of the S1 state in methylcobalamin: insight from CASSCF/MC-XQDPT2, EOM-CCSD, and TD-DFT calculations

Ben Houria, A.; Yazidi, O.; Jaidane, N.; Senent, M.L.; Hochlaf, M., 2012:
Electronic structure of the [MgO3]+ cation

Banerjee, P.; Sproules, S.; Weyhermüller, T.; Debeer George, S.; Wieghardt, K., 2010:
Electronic structure of the [tris(dithiolene)chromium](z) (z = 0, 1-, 2-, 3-) electron transfer series and their manganese(IV) analogues. An X-ray absorption spectroscopic and density functional theoretical study

Timerghazin, Q.K.; Peslherbe, G.H., 2007:
Electronic structure of the acetonitrile and acetonitrile dimer anions: a topological investigation

Platts, J.A.; Evans, G.J.S.; Coogan, M.P.; Overgaard, J., 2007:
Electronic structure of the alkyne-bridged dicobalt hexacarbonyl complex Co(2) micro-C(2)H(2) (CO)(6): evidence for singlet diradical character and implications for metal-metal bonding

Chen, F-Fang.; Wang, F., 2009:
Electronic structure of the azide group in 3 cent-azido-3 cent-deoxythymidine (AZT) compared to small azide compounds

Mossanek, R.J.O.; Abbate, M.; Yoshida, T.; Fujimori, A.; Yoshida, Y.; Shirakawa, N.; Eisaki, H.; Kohno, S.; Fonseca, P.T.; Vicentin, F.C., 2011:
Electronic structure of the band-filling-controlled CaVO3 and LaVO3 compounds

Pieniazek, P.A.; Krylov, A.I.; Bradforth, S.E., 2007:
Electronic structure of the benzene dimer cation

Yoshida, H.; Ito, E.; Hara, M.; Sato, N., 2012:
Electronic structure of the buried interface between an organic semiconductor, N,N'-bis(3-methylphenyl)-N,N'-diphenylbenzidine (TPD), and metal surfaces

Roy, A.Saha.; Muresan, N.; Tuononen, H.M.; Rath, S.P.; Ghosh, P., 2008:
Electronic structure of the glyoxalbis(2-hydroxyanil) (gha) ligand in [Co(III)(gha)(PPh3)2]+: radical vs. non-radical states

Pérez Mondéjar, V.; García Cuesta, I.; Lazzeretti, P.; Sánchez-Marín, Jé.; Sánchez de Merás, A., 2008:
Electronic structure of the ground and excited states of beta-carboline

Abriata, L.A.; Ledesma, G.N.; Pierattelli, R.; Vila, A.J., 2009:
Electronic structure of the ground and excited states of the Cu(A) site by NMR spectroscopy

Kammler, L.; van Gastel, M., 2013:
Electronic structure of the lowest triplet state of flavin mononucleotide

Ghosh, M.; Weyhermüller, T.; Wieghardt, K., 2010:
Electronic structure of the members of the electron transfer series [NiL](z) (z = 3+, 2+, 1+, 0) and [NiL(X)](n) (X = Cl, CO, P(OCH(3))(3)) species containing a tetradentate, redox-noninnocent, Schiff base macrocyclic ligand L: an experimental and density functional theoretical study

Kona, F.; Tao, P.; Martin, P.; Xu, X.; Gatti, D.L., 2009:
Electronic structure of the metal center in the Cd(2+), Zn(2+), and Cu(2+) substituted forms of KDO8P synthase: implications for catalysis

Huang, D.; Blake, A.J.; McInnes, E.J.L.; McMaster, J.; Davies, E.Stephen.; Wilson, C.; Wolowska, J.; Schröder, M., 2008:
Electronic structure of the mononuclear Ag(ii) complex [Ag([18]aneS(4)O(2))](2+) ([18]aneS(4)O(2) = 1,10-dioxa-4,7,13,16-tetrathiacyclooctadecane)

Lu, F.; Zhao, J.Zhou.; Wang, W-Hua., 2012:
Electronic structure of the new Ni-based superconductor KNi2Se2

DeMasi, A.; Piper, L.F.J.; Zhang, Y.; Reid, I.; Wang, S.; Smith, K.E.; Downes, J.E.; Peltekis, N.; McGuinness, C.; Matsuura, A., 2008:
Electronic structure of the organic semiconductor Alq3 (aluminum tris-8-hydroxyquinoline) from soft x-ray spectroscopies and density functional theory calculations

Aristov, V.Yu.; Molodtsova, O.V.; Maslyuk, V.V.; Vyalikh, D.V.; Zhilin, V.M.; Ossipyan, Y.A.; Bredow, T.; Mertig, I.; Knupfer, M., 2008:
Electronic structure of the organic semiconductor copper phthalocyanine: experiment and theory

Jin, L.; Smith, P.; Noble, C.J.; Stranger, R.; Hanson, G.R.; Pace, R.J., 2015:
Electronic structure of the oxygen evolving complex in photosystem II, as revealed by 55Mn Davies ENDOR studies at 2.5 K

Yoon, J.; Solomon, E.I., 2007:
Electronic structure of the peroxy intermediate and its correlation to the native intermediate in the multicopper oxidases: insights into the reductive cleavage of the o-o bond

Ponomarenko, N.S.; Poluektov, O.G.; Bylina, E.J.; Norris, J.R., 2010:
Electronic structure of the primary electron donor of Blastochloris viridis heterodimer mutants: high-field EPR study

Niklas, J.; Epel, B.; Antonkine, M.L.; Sinnecker, S.; Pandelia, M-Eirini.; Lubitz, W., 2009:
Electronic structure of the quinone radical anion A1*- of photosystem I investigated by advanced pulse EPR and ENDOR techniques

Hepp, C.; Müller, T.; Waselowski, V.; Becker, J.N.; Pingault, B.; Sternschulte, H.; Steinmüller-Nethl, D.; Gali, A.; Maze, J.R.; Atatüre, M.; Becher, C., 2014:
Electronic structure of the silicon vacancy color center in diamond

Denehy, E.; White, J.M.; Williams, S.J., 2007:
Electronic structure of the sulfonyl and phosphonyl groups: a computational and crystallographic study

Pan, Z-H.; Vescovo, E.; Fedorov, A.V.; Gardner, D.; Lee, Y.S.; Chu, S.; Gu, G.D.; Valla, T., 2011:
Electronic structure of the topological insulator Bi2Se3 using angle-resolved photoemission spectroscopy: evidence for a nearly full surface spin polarization

Zuev, D.; Bravaya, K.B.; Crawford, T.Daniel.; Lindh, R.; Krylov, A.I., 2011:
Electronic structure of the two isomers of the anionic form of p-coumaric acid chromophore

Alemany, P.; Rodríguez-Fortea, A.; Canadell, E., 2011:
Electronic structure of the two-leg spin ladder (C5H12N)2CuBr4

Teutloff, C.; Pudollek, S.; Kessen, S.; Broser, M.; Zouni, A.; Bittl, R., 2009:
Electronic structure of the tyrosine D radical and the water-splitting complex from pulsed ENDOR spectroscopy on photosystem II single crystals

Pandelia, M-Eirini.; Bykov, D.; Izsak, R.; Infossi, P.; Giudici-Orticoni, M-Thérèse.; Bill, E.; Neese, F.; Lubitz, W., 2013:
Electronic structure of the unique [4Fe-3S] cluster in O2-tolerant hydrogenases characterized by 57Fe Mossbauer and EPR spectroscopy

Pieniazek, P.A.; VandeVondele, J.; Jungwirth, P.; Krylov, A.I.; Bradforth, S.E., 2008:
Electronic structure of the water dimer cation

Jurss, J.W.; Concepcion, J.J.; Butler, J.M.; Omberg, K.M.; Baraldo, L.M.; Thompson, D.Graff.; Lebeau, E.L.; Hornstein, B.; Schoonover, J.R.; Jude, H.; Thompson, J.D.; Dattelbaum, D.M.; Rocha, R.C.; Templeton, J.L.; Meyer, T.J., 2012:
Electronic structure of the water oxidation catalyst cis,cis-[(bpy)2(H2O)Ru(III)ORu(III)(OH2)(bpy)2]4+, the blue dimer

Michael Böttger, P.H.; Diplas, S.; Flage-Larsen, E.; Prytz, Øystein.; Finstad, T.G., 2011:
Electronic structure of thermoelectric Zn-Sb

Li, Y.; Galli, G.; Gygi, Fçois., 2009:
Electronic structure of thiolate-covered gold nanoparticles: Au102(MBA)44

Yakobi, H.; Eliav, E.; Kaldor, U., 2011:
Electronic structure of three-dimensional isotropic quantum dots by four-component relativistic coupled cluster methods

Leung, B.O.; Jalilehvand, F.; Szilagyi, R.K., 2008:
Electronic structure of transition metal-cysteine complexes from X-ray absorption spectroscopy

Dixit, H.; Saniz, R.; Cottenier, S.; Lamoen, D.; Partoens, B., 2012:
Electronic structure of transparent oxides with the Tran-Blaha modified Becke-Johnson potential

Uzunova, E.L., 2014:
Electronic structure of trioxide, oxoperoxide, oxosuperoxide, and ozonide clusters of the 3d elements: density functional theory study

Novak, I.; Kovač, B.; Jokić, M., 2014:
Electronic structure of two precursors for nanofabrication: [(CH3)3CN]2W[N(CH3)2]2 and Ti(NMe2)2(NEt2)2

Miliordos, E.; Mavridis, A., 2007:
Electronic structure of vanadium oxide. Neutral and charged species, VO0,+/-

Cho, B.I.; Engelhorn, K.; Correa, A.A.; Ogitsu, T.; Weber, C.P.; Lee, H.J.; Feng, J.; Ni, P.A.; Ping, Y.; Nelson, A.J.; Prendergast, D.; Lee, R.W.; Falcone, R.W.; Heimann, P.A., 2011:
Electronic structure of warm dense copper studied by ultrafast x-ray absorption spectroscopy

Gråsjö, J.; Andersson, E.; Forsberg, J.; Aziz, E.F.; Brena, B.; Johansson, C.; Nordgren, J.; Duda, L.; Andersson, J.; Hennies, F.; Rubensson, J-Erik.; Hansson, P., 2009:
Electronic structure of water molecules confined in a micelle lattice

Fuentes-Cabrera, M.; Zhao, X.; Kent, P.R.C.; Sumpter, B.G., 2007:
Electronic structure of xDNA

Kaminska, A.; Ma, C-G.; Brik, M.G.; Kozanecki, A.; Boćkowski, M.; Alves, E.; Suchocki, A., 2012:
Electronic structure of ytterbium-implanted GaN at ambient and high pressure: experimental and crystal field studies

Atuchin, V.V.; Kesler, V.G.; Zaitsev, A.I.; Molokeev, M.S.; Aleksandrovsky, A.S.; Kuzubov, A.A.; Ignatova, N.Y., 2013:
Electronic structure of α-SrB4O7: experiment and theory

Garner, E.B.; Arduengo, A.J.; Streubel, R.; Dixon, D.A., 2013:
Electronic structure predictions of the properties of non-innocent P-ligands in group 6B transition metal complexes

Melko, J.J.; Werner, U.; Mitrić, R.; Bonačić-Koutecký, V.; Castleman, A.W., 2011:
Electronic structure similarities in Pb(x)Sb(y)(-) and Sn(x)Bi(y)(-) clusters

Diplas, S.; Løvvik, O.M., 2009:
Electronic structure studies of Ni-X (X: B, S, P) alloys using x-ray photoelectron spectroscopy, x-ray induced Auger electron spectroscopy and density functional theory calculations

Gautam, S.; Muthurani, S.; Balaji, M.; Thakur, P.; Padiyan, D.Pathinettam.; Chae, K.H.; Kim, S.S.; Asokan, K., 2011:
Electronic structure studies of nanoferrite Cu(x)Co(1-x)Fe2O4 by X-ray absorption spectroscopy

Dinescu, A.; Benson, M.T., 2008:
Electronic structure studies on deprotonation of dithiophosphinic acids in water clusters

Sharma, A.; Varshney, M.; Shin, H-Joon.; Park, Y.Jun.; Kim, M-Gyu.; Ha, T-Kyun.; Chae, K.Hwa.; Gautam, S., 2014:
Electronic structure study of Ce1-xAxO2 (A = Zr & Hf) nanoparticles: NEXAFS and EXAFS investigations

Marković, S.; Stanković, S.; Radenković, S.; Gutman, I., 2008:
Electronic structure study of thermal intraconversions of some dicyclopenta-fused polycyclic aromatic compounds

Ogawa, M.; Sheverdyaeva, P.M.; Moras, P.; Topwal, D.; Harasawa, A.; Kobayashi, K.; Carbone, C.; Matsuda, I., 2012:
Electronic structure study of ultrathin Ag(111) films modified by a Si(111) substrate and √3 × √3-Ag2Bi surface

Lee, K-Ho.; Kim, S-Kang.; Park, Y-Il.; Park, J-Wook., 2011:
Electronic structure study on the electroluminescent properties of fully substituted ethylene derivatives

Gutiérrez-Pérez, R-Margarita.; Flores-Holguín, N.; Glossmann-Mitnik, D.; Rodriguez-Valdez, L-Maria., 2011:
Electronic structure study using density functional theory in organic dendrimers

Cho, Y.; Kim, C.; Moon, H.; Choi, Y.; Park, S.; Lee, C-Ki.; Han, S., 2007:
Electronic structure tailoring and selective adsorption mechanism of metal-coated nanotubes

Rai, S.; Singh, H., 2014:
Electronic structure theory based study of proline interacting with gold nano clusters

Zhang, J.; Hase, W.L., 2010:
Electronic structure theory study of the F(-) + CH(3)I → FCH(3) + I(-) potential energy surface

Bernhammer, J.C.; Frison, G.; Huynh, H.Vinh., 2013:
Electronic structure trends in N-heterocyclic carbenes (NHCs) with varying number of nitrogen atoms and NHC-transition-metal bond properties

Rander, Törn.; Staiger, M.; Richter, R.; Zimmermann, T.; Landt, L.; Wolter, D.; Dahl, J.E.; Carlson, R.M.K.; Tkachenko, B.A.; Fokina, N.A.; Schreiner, P.R.; Möller, T.; Bostedt, C., 2013:
Electronic structure tuning of diamondoids through functionalization

Zhou, J.; Hong, D.; Wang, J.; Hu, Y.; Xie, X.; Fang, H., 2014:
Electronic structure variation of the surface and bulk of a LiNi0.5Mn1.5O4 cathode as a function of state of charge: X-ray absorption spectroscopic study

Cangi, A.; Lee, D.; Elliott, P.; Burke, K.; Gross, E.K.U., 2011:
Electronic structure via potential functional approximations

Roy, A.; Mukherjee, S.; Gupta, R.; Auluck, S.; Prasad, R.; Garg, A., 2011:
Electronic structure, Born effective charges and spontaneous polarization in magnetoelectric gallium ferrite

Laref, A.; Laref, S.; Bin-Omran, S., 2011:
Electronic structure, X-ray absorption, and optical spectroscopy of LaCoO(3) in the ground-state and excited-states

Ludwig, E.; Strunskus, T.; Hellmann, S.; Nefedov, A.; Wöll, C.; Kipp, L.; Rossnagel, K., 2013:
Electronic structure, adsorption geometry, and photoswitchability of azobenzene layers adsorbed on layered crystals

Li, Q.; Gusarov, S.; Evoy, S.; Kovalenko, A., 2009:
Electronic structure, binding energy, and solvation structure of the streptavidin-biotin supramolecular complex: ONIOM and 3D-RISM study

Ding, P.; Liang, E.J.; Jia, Y.; Du, Z.Y., 2008:
Electronic structure, bonding and phonon modes in the negative thermal expansion materials of Cd(CN)(2) and Zn(CN)(2)

Skwara, Błomiej.; Góra, R.W.; Zaleśny, R.; Lipkowski, Pł.; Bartkowiak, W.; Reis, H.; Papadopoulos, M.G.; Luis, J.M.; Kirtman, B., 2011:
Electronic structure, bonding, spectra, and linear and nonlinear electric properties of Ti@C28

Stashans, A.; Chamba, G.; Pinto, H., 2007:
Electronic structure, chemical bonding, and geometry of pure and Sr-doped CaCO3

Haarmann, F.; Koch, K.; Grüner, D.; Schnelle, W.; Pecher, O.; Cardoso-Gil, R.; Borrmann, H.; Rosner, H.; Grin, Y., 2009:
Electronic structure, chemical bonding, and solid-state NMR spectroscopy of the digallides of Ca, Sr, and Ba

Ray, S.Chandra.; Tsai, H-Ming.; Chen, H-Chin.; Wu, S-Lun.; Ling, D-Chin.; Lin, I-Nan.; Pong, W-Faung., 2012:
Electronic structure, electron field emission and magnetic behaviors of carbon nanotubes fabricated on La0.66Sr0.33MnO3 (LSMO) for spintronics application

Ju, S.; Cai, T-Yi.; Guo, G-Yu., 2009:
Electronic structure, linear, and nonlinear optical responses in magnetoelectric multiferroic material BiFeO(3)

Slebarski, A.; Goraus, J.; Deniszczyk, J.; Skoczeń, L., 2006:
Electronic structure, magnetic properties and electrical resistivity of the Fe(2)V(1-x)Ti(x)Al Heusler alloys: experiment and calculation

Dhumal, N.R., 2011:
Electronic structure, molecular electrostatic potential and hydrogen bonding in DMSO-X complexes (X = ethanol, methanol and water)

Peerannawar, S.R.; Gejji, S.P., 2012:
Electronic structure, molecular electrostatic potential and spectral characteristics of pillar[6]arene hosts and their complexes with n-octyltriethylammonium ions

Pinjari, R.V.; Gejji, S.P., 2008:
Electronic structure, molecular electrostatic potential, and NMR chemical shifts in cucurbit[n]urils (n = 5-8), ferrocene, and their complexes

Khedkar, J.K.; Pinjari, R.V.; Gejji, S.P., 2012:
Electronic structure, molecular electrostatic potentials, vibrational spectra in substituted calix[n]arenes (n = 4, 5) from density functional theory

Bravo-Pérez, G.; Cruz-Torres, A.; Romero-Martínez, Aón., 2008:
Electronic structure, molecular interaction, and stability of the CH4-nH2O complex, for n = 1-21

Vrábel, V.; Sivý, Július.; Šafář, P.; Marchalín, Štefan., 2014:
Electronic structure, novel synthesis, and O-H...O and C-H...O interactions in two 6-oxopiperidine-2-carboxylic acid derivatives

Litvinchuk, A.P.; Bunzarov, Z.; Iliev, M.N., 2011:
Electronic structure, optical properties and lattice dynamics of MgSO3·6H2O

Dutta, R.; Alptekin, S.; Mandal, N., 2013:
Electronic structure, optical properties and the mechanism of the B3-B8 phase transition of BeSe: insights from hybrid functionals, lattice dynamics and NPH molecular dynamics

Das, H.; Waghmare, U.V.; Saha-Dasgupta, T.; Sarma, D.D., 2008:
Electronic structure, phonons, and dielectric anomaly in ferromagnetic insulating double pervoskite La2NiMnO6

Ali, M.Ehesan.; Sanyal, B.; Oppeneer, P.M., 2012:
Electronic structure, spin-states, and spin-crossover reaction of heme-related Fe-porphyrins: a theoretical perspective

Poudel, L.; Rulis, P.; Liang, L.; Ching, W.Y., 2015:
Electronic structure, stacking energy, partial charge, and hydrogen bonding in four periodic B-DNA models

RajaAmbal, S.; Yadav, A.K.; Jha, S.N.; Bhattacharyya, D.; Gopinath, C.S., 2014:
Electronic structure-sunlight driven water splitting activity correlation of (Zn1-yGay)(O1-zNz)

Zhang, C-Rong.; Liu, Z-Jiang.; Sun, Y-Tong.; Shen, Y-Lin.; Chen, Y-Hong.; Liu, Y-Jun.; Wang, W.; Zhang, H-Ming., 2011:
Electronic structures and absorption properties of three kinds of ruthenium dye sensitizers containing bipyridine-pyrazolate for solar cells

Wasada-Tsutsui, Y.; Watanabe, Y.; Tatewaki, H., 2007:
Electronic structures and bonding of CeF: a frozen-core four-component relativistic configuration interaction study

Zhou, J.; Lv, K.; Wang, Q.; Chen, X.S.; Sun, Q.; Jena, P., 2011:
Electronic structures and bonding of graphyne sheet and its BN analog

Kim, D.H.; You, J.H.; Kim, J.H.; Yoo, K.H.; Kim, T.W., 2012:
Electronic structures and carrier distributions of T-shaped AlxGa1-xAs/AlyGa1-yAs quantum wires fabricated by a cleaved-edge overgrowth method

Liu, H.; Kang, S.; Lee, J.Yong., 2010:
Electronic structures and charge transport of stacked annelated β-trithiophenes

Takahashi, R.; Wang, H.; Lewis, J.P., 2007:
Electronic structures and conductivity in peptide nanotubes

Yu, W.; Lin, Z.; Ding, C., 2007:
Electronic structures and electron detachment energies of halogen substituted acetate anions, XCH2COO- (X=F,Cl,Br)

Li, Q.; Li, Y-Ni.; Wang, T.; Wang, S-Guang.; Huo, C-Fang.; Li, Y-Wang.; Wang, J.; Jiao, H., 2013:
Electronic structures and energies of Fe2(CO)n (n=0-9)

Yu, W.; Jiang, K.; Wu, J.; Gan, J.; Zhu, M.; Hu, Z.; Chu, J., 2011:
Electronic structures and excitonic transitions in nanocrystalline iron-doped tin dioxide diluted magnetic semiconductor films: an optical spectroscopic study

Yan, S-yao.; Xie, Y.; Liu, T.; Yu, H-tao., 2011:
Electronic structures and ferroelectric instabilities of cubic AVO(3) (A = Sr, Ba, and Pb) perovskites by first-principles calculations

Yan, X-Wang.; Gao, M.; Lu, Z-Yi.; Xiang, T., 2011:
Electronic structures and magnetic order of ordered-Fe-vacancy ternary iron selenides TlFe1.5Se2 and AFe1.5Se2 (A=K, Rb, or Cs)

Zhou, Y.; Yang, P.; Zu, H.; Gao, F.; Zu, X., 2013:
Electronic structures and magnetic properties of MoS2 nanostructures: atomic defects, nanoholes, nanodots and antidots

Rahman, M.; Nie, Y-zhuang.; Guo, G-hua., 2013:
Electronic structures and magnetism of SrFeO2 under pressure: a first-principles study

Tang, S-Wei.; Feng, J-Dong.; Qiu, Y-Qing.; Sun, H.; Wang, F-Di.; Chang, Y-Fei.; Wang, R-Shun., 2010:
Electronic structures and nonlinear optical properties of highly deformed halofullerenes C(3v) C60F18 and D(3d) C60Cl30

Feng, X-Yang.; Zhang, C-Wen.; Xu, X-Jin.; Wang, P-Ji., 2013:
Electronic structures and optical properties for Ag-N-codoped ZnO nanotubes

Huang, W.Lai., 2008:
Electronic structures and optical properties of BiOX (X = F, Cl, Br, I) via DFT calculations

Hu, C-Li.; Xu, X.; Sun, C-Fu.; Mao, J-Gao., 2011:
Electronic structures and optical properties of Ca5(BO3)3F: a systematical first-principles study

Zhang, C-Rong.; Liu, L.; Liu, Z-Jiang.; Shen, Y-Lin.; Sun, Y-Tong.; Wu, Y-Zhi.; Chen, Y-Hong.; Yuan, L-Hua.; Wang, W.; Chen, H-Shan., 2013:
Electronic structures and optical properties of organic dye sensitizer NKX derivatives for solar cells: a theoretical approach

Tang, S-Wei.; Wang, F-Di.; Zhang, N-Nan.; Chang, Y-Fei.; Sun, H.; Zhang, J-Ping.; Xie, H-Ming.; Qiu, Y-Qing.; Wang, R-Shun., 2012:
Electronic structures and optical properties of the IPR-violating C60X8 (X = H, F, and Cl) fullerene compounds: a computational study

Zhang, J.; Head-Gordon, M., 2009:
Electronic structures and reaction dynamics of open-shell species

Hirano, T.; Nagashima, U.; Winnewisser, G.; Jensen, P., 2010:
Electronic structures and rovibronically averaged geometries of the X 6Ai' and A 6Ai" states of FeOH

Das, A.; Agarwala, H.; Kundu, T.; Ghosh, P.; Mondal, S.; Mobin, S.M.; Lahiri, G.Kumar., 2014:
Electronic structures and selective fluoride sensing features of Os(bpy)2(HL(2-)) and [{Os(bpy)2}2(μ-HL(2-))](2+) (H3L: 5-(1H-benzo[d]imidazol-2-yl)-1H-imidazole-4-carboxylic acid)

Gao, Y.; Sun, S.; Han, K., 2008:
Electronic structures and spectroscopic properties of rhenium (I) tricarbonyl photosensitizer: [Re(4,4'-(COOEt)2-2,2'-bpy)(CO)3py]PF6

Surawatanawong, P.; Sproules, S.; Neese, F.; Wieghardt, K., 2012:
Electronic structures and spectroscopy of the electron transfer series [Fe(NO)L2]z (z = 1+, 0, 1-, 2-, 3-; L = dithiolene)

Glaser, R.; Camasta, C., 2013:
Electronic structures and spin density distributions of BrO2 and (HO)2BrO radicals. Mechanisms for avoidance of hypervalency and for spin delocalization and spin polarization

Glaser, R.; Sui, Y.; Sarkar, U.; Gates, K.S., 2008:
Electronic structures and spin topologies of gamma-picoliniumyl radicals. A study of the homolysis of N-methyl-gamma-picolinium and of benzo-, dibenzo-, and naphthoannulated analogs

Tai, T.Ba.; Kadłubański, Pł.; Roszak, S.; Majumdar, D.; Leszczynski, J.; Nguyen, M.Tho., 2011:
Electronic structures and thermochemical properties of the small silicon-doped boron clusters B(n)Si (n=1-7) and their anions

Zeng, J.; Chen, K-Qiu.; Sun, C.Q., 2012:
Electronic structures and transport properties of fluorinated boron nitride nanoribbons

Saha, A.; Raghavachari, K., 2014:
Electronic structures and water reactivity of mixed metal sulfide cluster anions

Liu, X.; Wang, C.; Lyu, L.; Wang, C.; Xiao, Z.; Bi, C.; Huang, J.; Gao, Y., 2014:
Electronic structures at the interface between Au and CH3NH3PbI3

Waller, S.E.; Mann, J.E.; Hossain, E.; Troyer, M.; Jarrold, C.C., 2012:
Electronic structures of AlMoO(y)(-) (y = 1-4) determined by photoelectron spectroscopy and density functional theory calculations

Dong, S.S.; Nielsen, R.J.; Palmer, J.H.; Gray, H.B.; Gross, Z.; Dasgupta, S.; Goddard, W.A., 2011:
Electronic structures of Group 9 metallocorroles with axial ammines

Chen, S.; Lin, W.; Li, S.; Kang, J., 2009:
Electronic structures of InN/GaN quantum dots

Li, Z-Yang.; Wu, Q-Hui., 2008:
Electronic structures of LixV2O5 (x=0.5 and 1): a theoretical study

Mayhall, N.J.; Rothgeb, D.W.; Hossain, E.; Raghavachari, K.; Jarrold, C.Chick., 2009:
Electronic structures of MoWO(y)- and MoWO(y) determined by anion photoelectron spectroscopy and DFT calculations

Bercaw, J.E.; Durrell, A.C.; Gray, H.B.; Green, J.C.; Hazari, N.; Labinger, J.A.; Winkler, J.R., 2010:
Electronic structures of Pd(II) dimers

Sun, L.; Li, Y.; Li, Z.; Li, Q.; Zhou, Z.; Chen, Z.; Yang, J.; Hou, J.G., 2008:
Electronic structures of SiC nanoribbons

Mann, J.E.; Waller, S.E.; Jarrold, C.Chick., 2012:
Electronic structures of WAlO(y) and WAlO(y)(-) (y = 2-4) determined by anion photoelectron spectroscopy and density functional theory calculations

Milsmann, C.; Bill, E.; Weyhermüller, T.; DeBeer George, S.; Wieghardt, K., 2010:
Electronic structures of [Ru(II)(cyclam)(Et(2)dtc)](+), [Ru(cyclam)(tdt)](+), and [Ru(cyclam)(tdt)](2+): an X-ray absorption spectroscopic and computational study (tdt = toluene-3,4-dithiolate; Et(2)dtc = N,N-diethyldithiocarbamate(1-))

Chuang, F-Chuan.; Lin, W-Huan.; Huang, Z-Quan.; Hsu, C-Hsiu.; Kuo, C-Cheng.; Ozolins, V.; Yeh, V., 2011:
Electronic structures of an epitaxial graphene monolayer on SiC(0001) after gold intercalation: a first-principles study

Ding, Y.; He, M.; Niu, Y.; Wang, D.; Cui, Y.; Feng, S., 2009:
Electronic structures of bis- and monothiophene complexes with Fe, Co, Ni: a density functional theory study

Firme, C.L.; da Costa, T.F.; da Penha, E.T.; Esteves, P.M., 2013:
Electronic structures of bisnoradamantenyl and bisnoradamantanyl dications and related species

Hu, J.; Pan, B.C., 2008:
Electronic structures of defects in ZnO: hybrid density functional studies

Chłopek, K.; Muresan, N.; Neese, F.; Wieghardt, K., 2007:
Electronic structures of five-coordinate complexes of iron containing zero, one, or two pi-radical ligands: a broken-symmetry density functional theoretical study

Takano, Y.; Nakamura, H., 2010:
Electronic structures of heme a of cytochrome c oxidase in the redox states--charge density migration to the propionate groups of heme a

Bowman, A.C.; England, J.; Sproules, S.; Weyhermüller, T.; Wieghardt, K., 2013:
Electronic structures of homoleptic [tris(2,2'-bipyridine)M]n complexes of the early transition metals (M = Sc, Y, Ti, Zr, Hf, V, Nb, Ta; n = 1+, 0, 1-, 2-, 3-): an experimental and density functional theoretical study

Zhang, D.; Liu, C., 2011:
Electronic structures of low-lying Bu excited states in trans-oligoenes: Pariser-Parr-Pople and ab initio calculations

Tuononen, H.M.; Roesler, R.; Dutton, J.L.; Ragogna, P.J., 2007:
Electronic structures of main-group carbene analogues

Brunker, T.J.; Kovač, B.; Kowalski, K.; Polit, W.; Winter, R.F.; Rheingold, A.L.; Novak, I., 2012:
Electronic structures of methylated azaferrocenes and their borane adducts: photoelectron spectroscopy and electronic structure calculations

Schweinfurth, D.; Krzystek, J.; Schapiro, I.; Demeshko, S.; Klein, J.; Telser, J.; Ozarowski, A.; Su, C-Yong.; Meyer, F.; Atanasov, M.; Neese, F.; Sarkar, B., 2013:
Electronic structures of octahedral Ni(II) complexes with "click" derived triazole ligands: a combined structural, magnetometric, spectroscopic, and theoretical study

Chung, K-Hoon.; Koo, B-Gil.; Kim, H.; Yoon, J.Keon.; Kim, J-Hoon.; Kwon, Y-Kyun.; Kahng, S-Jong., 2012:
Electronic structures of one-dimensional metal-molecule hybrid chains studied using scanning tunneling microscopy and density functional theory

He, W.; Li, Z.; Yang, J.; Hou, J.G., 2008:
Electronic structures of organic molecule encapsulated BN nanotubes under transverse electric field

Prosenc, M.Heinrich.; Reddmann, H.; Amberger, H-Dieter., 2012:
Electronic structures of organometallic complexes of f elements LXXVI: Correlation of experimental and calculated (on the basis of density functional theory) vibrational spectra of bis(η5-cyclopentadienyl)ruthenium and bis(η5-pentamethylcyclopentadienyl)ruthenium

Amberger, H-Dieter.; Reddmann, H., 2015:
Electronic structures of organometallic complexes of f elements LXXXII: comparison of assigned experimental and calculated (on the basis of density functional theory) frequencies of normal vibrations of the first homoleptic organometallic complex of the lanthanides: tris(η(5)-tetramethylcyclopentadienyl)lanthanum

Amberger, H-Dieter.; Reddmann, H.; Mueller, T.J.; Evans, W.J., 2015:
Electronic structures of organometallic complexes of f elements LXXXIII: First comparison of experimental and calculated (on the basis of density functional theory) polarized Raman spectra of an oriented organometallic single crystal: Tris(pentamethylcyclopentadienyl)lanthanum

Biswas, M.Kumar.; Patra, S.Chandra.; Maity, A.Nath.; Ke, S-Chu.; Adhikary, N.Das.; Ghosh, P., 2012:
Electronic structures of ruthenium and osmium complexes of 9,10-phenanthrenequinone

Valencia, Rón.; Rodríguez-Fortea, A.; Stevenson, S.; Balch, A.L.; Poblet, J.M., 2009:
Electronic structures of scandium oxide endohedral metallofullerenes, Sc(4)(mu(3)-O)(n)@I(h)-C(80) (n = 2, 3)

Okubo, S.; Okazaki, T.; Hirose-Takai, K.; Suenaga, K.; Okada, S.; Bandow, S.; Iijima, S., 2010:
Electronic structures of single-walled carbon nanotubes encapsulating ellipsoidal C70

Luo, Y.; Wang, L-Wang., 2010:
Electronic structures of the CdSe/CdS core-shell nanorods

Cao, Y.; Wang, S.; Liu, S.; Guo, Q.; Guo, J., 2012:
Electronic structures of the SrTiO3(110) surface in different reconstructions

Bowman, A.C.; Sproules, S.; Wieghardt, K., 2012:
Electronic structures of the [V(tbpy)3]z (z = 3+, 2+, 0, 1-) electron transfer series

Kakuta, H.; Hirahara, T.; Matsuda, I.; Nagao, T.; Hasegawa, S.; Ueno, N.; Sakamoto, K., 2007:
Electronic structures of the highest occupied molecular orbital bands of a pentacene ultrathin film

Kapre, R.R.; Bothe, E.; Weyhermüller, T.; George, S.Debeer.; Muresan, N.; Wieghardt, K., 2007:
Electronic structures of tris(dioxolene)chromium and tris(dithiolene)chromium complexes of the electron-transfer series [Cr(dioxolene)(3)](z) and [Cr(dithiolene)(3)](z) (z = 0, 1-, 2-, 3-). A combined experimental and density functional theoretical study

Chen, C-Ying.; Lai, K-Yu.; Lo, J-Wei.; Lin, C-An.; Chiu, S-Hsien.; Chao, Y-Chun.; He, J-Hau., 2012:
Electronic structures of well-aligned Er-doped ZnO nanorod arrays

Grigoraviciute, I.; Karppinen, M.; Chan, T-Shan.; Liu, R-Shi.; Chen, J-Ming.; Chmaissem, O.; Yamauchi, H., 2009:
Electronic structures, hole-doping, and superconductivity of the s = 1, 2, 3, and 4 members of the (Cu,Mo)-12s2 homologous series of superconductive copper oxides

Nhat, P.Vu.; Ngan, V.Thi.; Tai, T.Ba.; Nguyen, M.Tho., 2011:
Electronic structures, vibrational and thermochemical properties of neutral and charged niobium clusters Nb(n), n = 7-12

Ponce Ortiz, Río.; González, S.R.; Casado, J.; López Navarrete, J.T.; Officer, D.L.; Wagner, P.; Earles, J.C.; Gordon, K.C., 2009:
Electronic studies on oligothienylenevinylenes: understanding the nature of their ground and excited electronic states

Laukhin, V.; Copie, O.; Rozenberg, M.J.; Weht, R.; Bouzehouane, K.; Reyren, N.; Jacquet, E.; Bibes, M.; Barthélémy, A.; Herranz, G., 2013:
Electronic subband reconfiguration in a d0-perovskite induced by strain-driven structural transformations

Seymour, E.Mitchell.; Azevedo, A.; Wright, J.K.; Reisdorph, B.R.; Moore, M.; Weatherwax, K.J., 2014:
Electronic submission capability to FDA for academic investigators-the process, challenges, and opportunities affecting the translational research enterprise

Campillo, A.J., 2007:
Electronic submissions to optics letters

Campanelli, A.Rita.; Domenicano, A.; Piacente, G.; Ramondo, F., 2010:
Electronic substituent effects in bicyclo[1.1.1]pentane and [n]staffane derivatives: a quantum chemical study based on structural variation

Anonymous, 2011:
Electronic substitutions for Form SSA-538. Final rule with request for comments

Anonymous, 2014:
Electronic substitutions for SSA-538. Final rules

Zhu, X.; Cassidy, D.T., 1995:
Electronic subtracter for trace-gas detection with InGaAsP diode lasers

Sperl, A.; Kröger, J.; Berndt, R., 2011:
Electronic superstructure of lead phthalocyanine on lead islands

Barker, K.K., 2008:
Electronic support groups, patient-consumers, and medicalization: the case of contested illness

Even, J.; Pedesseau, L.; Kepenekian, Mël., 2014:
Electronic surface states and dielectric self-energy profiles in colloidal nanoscale platelets of CdSe

Rockman, J., 2010:
Electronic surgical record management

Peterson, J.F.; Kripalani, S.; Danciu, I.; Harrell, D.; Marvanova, M.; Mixon, A.S.; Rodriguez, C.; Powers, J.S., 2015:
Electronic surveillance and pharmacist intervention for vulnerable older inpatients on high-risk medication regimens

Hughes, R., 2008:
Electronic surveillance and tagging people with dementia

Woeltje, K.F.; McMullen, K.M.; Butler, A.M.; Goris, A.J.; Doherty, J.A., 2012:
Electronic surveillance for healthcare-associated central line-associated bloodstream infections outside the intensive care unit

Peterson, K.E.; Hacek, D.M.; Robicsek, A.; Thomson, R.B.; Peterson, L.R., 2013:
Electronic surveillance for infectious disease trend analysis following a quality improvement intervention

Koller, W.; Blacky, A.; Bauer, C.; Mandl, H.; Adlassnig, K-Peter., 2011:
Electronic surveillance of healthcare-associated infections with MONI-ICU--a clinical breakthrough compared to conventional surveillance systems

Ghosn, N.; Nasredine, A.; Baddour, Y.Merhy.; Coulombier, D.; Nasserdine, S., 2008:
Electronic surveillance of outbreaks in Lebanon

Groll, R.J.; Leonard, K.J.; Eakin, J.; Warde, P.; Bender, J.; Jewett, M.A.S., 2009:
Electronic surveillance of testicular cancer: understanding patient perspectives on access to electronic medical records

Kinsella, G.; Thomas, A.N.; Taylor, R.J., 2007:
Electronic surveillance of wall-mounted soap and alcohol gel dispensers in an intensive care unit

Grota, P.G.; Stone, P.W.; Jordan, S.; Pogorzelska, M.; Larson, E., 2010:
Electronic surveillance systems in infection prevention: organizational support, program characteristics, and user satisfaction

Han, J.; Wang, Y.; Lü, P-jun.; Tang, X-fei.; Wang, Y-ping., 2015:
Electronic surveying of digital partially dentate casts

McPeake, J.; Bateson, M.; O'Neill, A., 2014:
Electronic surveys: how to maximise success

Johansen, M.Alise.; Henriksen, E.; Horsch, A.; Schuster, T.; Berntsen, G.K.Rosvold., 2013:
Electronic symptom reporting between patient and provider for improved health care service quality: a systematic review of randomized controlled trials. part 1: state of the art

Johansen, M.Alise.; Berntsen, G.K.Rosvold.; Schuster, T.; Henriksen, E.; Horsch, A., 2013:
Electronic symptom reporting between patient and provider for improved health care service quality: a systematic review of randomized controlled trials. part 2: methodological quality and effects

Johansen, M.A.; Henriksen, E.; Berntsen, G.; Horsch, A., 2011:
Electronic symptom reporting by patients: a literature review

Badruddoja, M., 2011:
Electronic synoptic operation report

Brower, S.T.; Katz, M.; Pisters, P.; Merchant, N.; Weber, S.; Posner, M., 2011:
Electronic synoptic operative reporting for pancreatic resection

Iyer, N.Gopalakrishna.; Nixon, I.J.; Palmer, F.; Ganly, I.; Patel, S.G.; Shaha, A.R., 2011:
Electronic synoptic operative reporting for thyroid surgery using an electronic data management system: potential for prospective multicenter data collection

Park, J.; Pillarisetty, V.G.; Brennan, M.F.; Jarnagin, W.R.; D'Angelica, M.I.; Dematteo, R.P.; G Coit, D.; Janakos, M.; Allen, P.J., 2010:
Electronic synoptic operative reporting: assessing the reliability and completeness of synoptic reports for pancreatic resection

Vícha, I.; Girgle, R.; Vlková, E.; Rozman, J.; Cech, P.; Cízek, M.; Dlouhý, J., 2011:
Electronic system for correct head position control after some vitreoretinal surgeries

Surowiak, Z.; Brodacki, J.; Zajosz, H., 1978:
Electronic system for investigation of the electrical hysteresis of ferroelectric thin films with high dielectric losses

Nakamura, O.K.; Garcia, D.O.; Villavicencio, E.A.; Navarro, L.A.; Torres, M.A.; Huamani, R.; Yabar, L.F., 2011:
Electronic system for monitoring the frequency and pressure of mastication: study and approach for its design

Groeschen, H.M., 2007:
Electronic system improves medication reconciliation rates

Anonymous, 2016:
Electronic system in trial to detect risk of kidney injury

Anonymous, 2010:
Electronic tablets help provide information

Lim, C.; Yang, G., 2006:
Electronic teaching files and continuing professional development in radiology

Toyama, H.; Inoue, R.; Ito, Y.; Sakamoto, C.; Ishikawa, T.; Eda, T.; Saito, K., 2015:
Electronic teaching materials for inter-professional education in a college of medical professionals

Viale, P.Hallquist., 2012:
Electronic technologies: can they alter the human aspect of medical care?

Paula, P.M.C.; Rodrigues, S.S.R.; Altoe, M.Lorrainy.; Santos, L.S.; Rocha, A.F., 2011:
Electronic temperature monitoring during the decompression surgery of the facial nerve

Patimisco, P.; Scamarcio, G.; Santacroce, M.Vittoria.; Spagnolo, V.; Vitiello, M.Serena.; Dupont, E.; Laframboise, S.R.; Fathololoumi, S.; Razavipour, G.S.; Wasilewski, Z., 2013:
Electronic temperatures of terahertz quantum cascade active regions with phonon scattering assisted injection and extraction scheme

Gumberidze, A.; Trassinelli, M.; Adrouche, N.; Szabo, C.I.; Indelicato, P.; Haranger, F.; Isac, J-M.; Lamour, E.; Le Bigot, E-O.; Mérot, J.; Prigent, C.; Rozet, J-P.; Vernhet, D., 2010:
Electronic temperatures, densities, and plasma x-ray emission of a 14.5 GHz electron-cyclotron resonance ion source

Cowan, D.A.; Sands, M.B.; Rabizadeh, S.M.; Amos, C.S.; Ford, C.; Nussbaum, R.; Stein, D.; Liegeois, N.J., 2007:
Electronic templates versus dictation for the completion of Mohs micrographic surgery operative notes

Naumov, P.; Yu, P.; Sakurai, K., 2008:
Electronic tera-order stabilization of photoinduced metastable species: structure of the photochromic product of spiropyran determined with in situ single crystal X-ray photodiffraction

Bates, M.L.; Strother, E.A.; Brunet, D.P.; Gallo, J.R., 2012:
Electronic textbooks as a professional resource after dental school

Daniel, D.B.; Willingham, D.T., 2012:
Electronic textbooks: why the rush?

Julien, M-H.; de Vaulx, C.; Mayaffre, H.; Berthier, C.; Horvatić, M.; Simonet, V.; Wooldridge, J.; Balakrishnan, G.; Lees, M.R.; Chen, D.P.; Lin, C.T.; Lejay, P., 2008:
Electronic texture of the thermoelectric oxide Na0.75CoO2

Ehrenreich, H., 1987:
Electronic theory for materials science

Kornman, K.P.; Shrewsbury, V.A.; Chou, A.C.; Nguyen, B.; Lee, A.; O'Connor, J.; Steinbeck, K.S.; Hill, A.J.; Kohn, M.R.; Shah, S.; Baur, L.A., 2011:
Electronic therapeutic contact for adolescent weight management: the Loozit study

Goodfellow, L.M., 2009:
Electronic theses and dissertations: a review of this valuable resource for nurse scholars worldwide

Cipra, B., 1993:
Electronic time-stamping: the notary public goes digital

Moreland, H.D., 2012:
Electronic timing provides uniform X-ray exposures

Kinhikar, R.A.; Sharma, P.K.; Patkar, S.; Tambe, C.M.; Deshpande, D.D., 2007:
Electronic tissue compensation achieved with both dynamic and static multileaf collimator in eclipse treatment planning system for Clinac 6 EX and 2100 CD Varian linear accelerators: Feasibility and dosimetric study

Grès, B.; Foulquier, J.N.; Orthuon, A.; Huguet, F.; Keraudy, K.; Touboul, E., 2009:
Electronic tissue compensation for breast external radiotherapy: use of digital reconstructive radiography

Suleimanov, Y.V.; Buchachenko, A.A., 2007:
Electronic to vibrational energy transfer assisted by interacting transition dipole moments: a quantum model for the nonadiabatic I2(E) + CF4 collisions

Polshin, E.; Rudnitskaya, A.; Kirsanov, D.; Legin, A.; Saison, D.; Delvaux, F.; Delvaux, F.R.; Nicolaï, B.M.; Lammertyn, J., 2010:
Electronic tongue as a screening tool for rapid analysis of beer

Heras, J.Yánez.; Pallarola, D.; Battaglini, F., 2010:
Electronic tongue for simultaneous detection of endotoxins and other contaminants of microbiological origin

Jańczyk, M.; Kutyła, A.; Sollohub, K.; Wosicka, H.; Cal, K.; Ciosek, P., 2011:
Electronic tongue for the detection of taste-masking microencapsulation of active pharmaceutical substances

Hou, Y.; Genua, M.; Garçon, L-Amandine.; Buhot, A.; Calemczuk, R.; Bonnaffé, D.; Lortat-Jacob, H.; Livache, T., 2015:
Electronic tongue generating continuous recognition patterns for protein analysis

Kang, B-Sik.; Lee, J-Eun.; Park, H-Jin., 2015:
Electronic tongue-based discrimination of Korean rice wines (makgeolli) including prediction of sensory evaluation and instrumental measurements

Latha, R.Swathi.; Lakshmi, P.K., 2012:
Electronic tongue: An analytical gustatory tool

Gutés, A.; Céspedes, F.; Del Valle, M., 2007:
Electronic tongues in flow analysis

Patterson, P., 2012:
Electronic tool aids in navigating preop process

Trangenstein, P.A., 2008:
Electronic toolkit for nursing education

Anonymous, 2014:
Electronic tools for health information exchange: an evidence-based analysis

Burdette, S.D., 2008:
Electronic tools for infectious diseases and microbiology

Garg, A.B.; Verma, A.K.; Vijayakumar, V.; Rao, R.S.; Godwal, B.K., 2006:
Electronic topological and structural transitions in AuGa(2) under pressure

Basch, E.M.; Reeve, B.B.; Mitchell, S.A.; Clauser, S.B.; Minasian, L.; Sit, L.; Chilukuri, R.; Baumgartner, P.; Rogak, L.; Blauel, E.; Abernethy, A.P.; Bruner, D., 2011:
Electronic toxicity monitoring and patient-reported outcomes

Faucounau, V.; Riguet, M.; Orvoen, G.; Lacombe, A.; Rialle, V.; Extra, J.; Rigaud, A-S., 2009:
Electronic tracking system and wandering in Alzheimer's disease: a case study

Palazzo, G.; Magliulo, M.; Mallardi, A.; Angione, M.Daniela.; Gobeljic, D.; Scamarcio, G.; Fratini, E.; Ridi, F.; Torsi, L., 2015:
Electronic transduction of proton translocations in nanoassembled lamellae of bacteriorhodopsin

Mott, D.M.; Anh, D.Thi.Ngoc.; Singh, P.; Shankar, C.; Maenosono, S., 2012:
Electronic transfer as a route to increase the chemical stability in gold and silver core-shell nanoparticles

Riedle, E.; Bradler, M.; Wenninger, M.; Sailer, C.F.; Pugliesi, I., 2013:
Electronic transient spectroscopy from the deep UV to the NIR: unambiguous disentanglement of complex processes

Siddiqui, M.Salim.U.; Kodali, G.; Stanley, R.J., 2007:
Electronic transition dipole moment directions of reduced anionic flavin in stretched poly(vinyl alcohol) films

Bhattacharya, D.; Vaval, N.; Pal, S., 2013:
Electronic transition dipole moments and dipole oscillator strengths within Fock-space multi-reference coupled cluster framework: an efficient and novel approach

Melnik, D.; Thomas, P.S.; Miller, T.A., 2011:
Electronic transition moment for the 0(0)(0) band of the à ← X̃ transition in the ethyl peroxy radical

Widom, J.R.; Rappoport, D.; Perdomo-Ortiz, A.; Thomsen, H.; Johnson, N.P.; von Hippel, P.H.; Aspuru-Guzik, Aán.; Marcus, A.H., 2013:
Electronic transition moments of 6-methyl isoxanthopterin--a fluorescent analogue of the nucleic acid base guanine

Ng, Y.W.; Pang, H.F.; Qian, Y.; Cheung, A.S-C., 2012:
Electronic transition of palladium monoboride

Linke, M.; Yang, Y.; Zienicke, B.; Hammam, M.A.S.; von Haimberger, T.; Zacarias, A.; Inomata, K.; Lamparter, T.; Heyne, K., 2014:
Electronic transitions and heterogeneity of the bacteriophytochrome Pr absorption band: An angle balanced polarization resolved femtosecond VIS pump-IR probe study

Liu, G.; Wang, S.; Albrecht-Schmitt, T.E.; Wilkerson, M.P., 2012:
Electronic transitions and vibronic coupling in neptunyl compounds

Arulmozhiraja, S.; Ehara, M.; Nakatsuji, H., 2008:
Electronic transitions in cis- and trans-dichloroethylenes and tetrachloroethylene

Tsuji, H.; Fogarty, H.A.; Ehara, M.; Fukuda, R.; Casher, D.L.; Tamao, K.; Nakatsuji, H.; Michl, J., 2014:
Electronic transitions in conformationally controlled tetrasilanes with a wide range of SiSiSiSi dihedral angles

Morisawa, Y.; Yasunaga, M.; Fukuda, R.; Ehara, M.; Ozaki, Y., 2013:
Electronic transitions in liquid amides studied by using attenuated total reflection far-ultraviolet spectroscopy and quantum chemical calculations

Quinteiro, G.F.; Lucero, A.O.; Tamborenea, P.I., 2011:
Electronic transitions in quantum dots and rings induced by inhomogeneous off-centered light beams

Carr, E.P., 1947:
Electronic transitions in the simple unsaturated hydrocarbons

Sponer, H., 1947:
Electronic transitions in trisubstituted benzenes in the near ultraviolet

Fulara, J.; Nagy, A.; Filipkowski, K.; Thimmakondu, V.S.; Stanton, J.F.; Maier, J.P., 2013:
Electronic transitions of C6H4+ isomers: neon matrix and theoretical studies

Fulara, J.; Freivogel, P.; Maier, J.P., 2007:
Electronic transitions of CsC2, CsC2-, and CsC4 in neon matrixes

Fulara, J.; Chakraborty, A.; Nagy, A.; Filipkowski, K.; Maier, J.P., 2014:
Electronic transitions of C₅H₃⁺ and C₅H₃: neon matrix and CASPT2 studies

Ng, Y.W.; Pang, H.F.; Cheung, A.S-C., 2011:
Electronic transitions of cobalt monoboride

Pang, H.F.; Ng, Y.W.; Cheung, A.S-C., 2012:
Electronic transitions of iridium monoxide: ground and low-lying electronic states

Qian, Y.; Ng, Y.W.; Chen, Z.; Cheung, A.S-C., 2013:
Electronic transitions of palladium dimer

Ng, Y.W.; Wong, Y.Sing.; Pang, H.F.; Cheung, A.S-C., 2012:
Electronic transitions of platinum monoboride

Goto, T.; Ikehata, A.; Morisawa, Y.; Ozaki, Y., 2013:
Electronic transitions of protonated and deprotonated amino acids in aqueous solution in the region 145-300 nm studied by attenuated total reflection far-ultraviolet spectroscopy

Garkusha, I.; Fulara, J.; Nagy, A.; Maier, J.P., 2010:
Electronic transitions of protonated benzene and fulvene, and of C6H7 isomers in neon matrices

Wang, N.; Ng, Y.W.; Cheung, A.S-C., 2013:
Electronic transitions of ruthenium monoxide

Li, J.; Zhang, R.; Li, D.; Peng, R.; Wang, M., 2010:
Electronic transmission and switch effect in kappa-component Fibonacci nanowires

Mundy, D.; Chadwick, D.W., 2007:
Electronic transmission of prescriptions: towards realising the dream

Setare, M.R.; Jahani, D., 2011:
Electronic transmission through p-n and n-p-n junctions of graphene

Tolea, M.; Moldoveanu, V.; Dinu, I.; Tanatar, B., 2012:
Electronic transmittance phase extracted from mesoscopic interferometers

Kim, M.; Safron, N.S.; Han, E.; Arnold, M.S.; Gopalan, P., 2013:
Electronic transport and Raman scattering in size-controlled nanoperforated graphene

Cruz-Silva, E.; López-Urías, F.; Muñoz-Sandoval, E.; Sumpter, B.G.; Terrones, H.; Charlier, J-Christophe.; Meunier, V.; Terrones, M., 2009:
Electronic transport and mechanical properties of phosphorus- and phosphorus-nitrogen-doped carbon nanotubes

Ahn, S.; Aradhya, S.V.; Klausen, R.S.; Capozzi, B.; Roy, X.; Steigerwald, M.L.; Nuckolls, C.; Venkataraman, L., 2012:
Electronic transport and mechanical stability of carboxyl linked single-molecule junctions

Ozyilmaz, B.; Jarillo-Herrero, P.; Efetov, D.; Abanin, D.A.; Levitov, L.S.; Kim, P., 2007:
Electronic transport and quantum hall effect in bipolar graphene p-n-p junctions

Novaes, F.D.; Rurali, R.; Ordejón, P., 2010:
Electronic transport between graphene layers covalently connected by carbon nanotubes

Xu, X-rong.; Cheng, S-guang., 2013:
Electronic transport between quantum Hall states and quantum anomalous Hall states in a graphene nanoribbon based heterojunction

Fadlallah, M.M.; Schuster, C.; Schwingenschlögl, U.; Wunderlich, T.; Sanvito, S., 2009:
Electronic transport calculations for rough interfaces in Al, Cu, Ag, and Au

Zhang, R.; Ma, G.; Bai, M.; Sun, L.; Rungger, I.; Shen, Z.; Sanvito, S.; Hou, S., 2010:
Electronic transport calculations for the conductance of Pt-1,4-phenylene diisocyanide-Pt molecular junctions

Kemp, N.T.; Newbury, R.; Cochrane, J.W.; Dujardin, E., 2011:
Electronic transport in conducting polymer nanowire array devices

Taychatanapat, T.; Jarillo-Herrero, P., 2011:
Electronic transport in dual-gated bilayer graphene at large displacement fields

Behnam, A.; Johnson, J.L.; An, Y.; Biswas, A.; Ural, A., 2011 :
Electronic transport in graphitic nanoribbon films

Qi, Z.John.; Hong, S.Ju.; Rodríguez-Manzo, J.A.; Kybert, N.J.; Gudibande, R.; Drndić, M.; Park, Y.Woo.; Johnson, A.T.Charlie., 2015:
Electronic transport in heterostructures of chemical vapor deposited graphene and hexagonal boron nitride

Spear, W.E., 1969:
Electronic transport in molecular solids and liquids

Xu, Y.; Gao, H.; Li, M.; Guo, Z.; Chen, H.; Jin, Z.; Yu, B., 2011:
Electronic transport in monolayer graphene with extreme physical deformation: ab initio density functional calculation

Sun, Y.; Balkan, N.; Aslan, M.; Lisesivdin, S.B.; Carrere, H.; Arikan, M.C.; Marie, X., 2009:
Electronic transport in n- and p-type modulation doped Ga(x)In(1-x)N(y)As(1-y)/ GaAs quantum wells

Lu, C.; Zhang, D.; van der Zande, A.; Kim, P.; Herman, I.P., 2014:
Electronic transport in nanoparticle monolayers sandwiched between graphene electrodes

Koleini, M.; Colombi Ciacchi, L.; Fernández-Serra, M.Victoria., 2011:
Electronic transport in natively oxidized silicon nanowires

Stallinga, P., 2011:
Electronic transport in organic materials: comparison of band theory with percolation/(variable range) hopping theory

de Almeida, J.M.; Rocha, A.R.; Singh, A.K.; Fazzio, A.; da Silva, Aônio.J.R., 2013:
Electronic transport in patterned graphene nanoroads

Stegner, A.R.; Pereira, R.N.; Klein, K.; Lechner, R.; Dietmueller, R.; Brandt, M.S.; Stutzmann, M.; Wiggers, H., 2008:
Electronic transport in phosphorus-doped silicon nanocrystal networks

Conklin, D.; Nanayakkara, S.; Park, T-Hong.; Lagadec, M.F.; Stecher, J.T.; Therien, M.J.; Bonnell, D.A., 2012:
Electronic transport in porphyrin supermolecule-gold nanoparticle assemblies

Danilov, A.; Kubatkin, S.; Kafanov, S.; Hedegård, P.; Stuhr-Hansen, N.; Moth-Poulsen, K.; Bjørnholm, T., 2007:
Electronic transport in single molecule junctions: control of the molecule-electrode coupling through intramolecular tunneling barriers

Gao, P-Xian.; Ding, Y.; Wang, Z.Lin., 2009:
Electronic transport in superlattice-structured ZnO Nanohelix

Chern, G-Wei.; Maiti, S.; Fernandes, R.M.; Wölfle, P., 2013:
Electronic transport in the Coulomb phase of the pyrochlore spin ice

Costa, A.Luiza.Mariano.Torres.; Meunier, V.; Girão, E.Costa., 2014:
Electronic transport in three-terminal triangular carbon nanopatches

Chae, D-Hun.; Zhang, D.; Huang, X.; von Klitzing, K., 2012:
Electronic transport in two stacked graphene monolayers

Lee, S.; Lee, W.; Seo, K.; Kim, J.; Han, S-Hwan.; Kim, B., 2008:
Electronic transport mechanism and photocurrent generations of single-crystalline InN nanowires

Li, X.; Baek, I-Bok.; Lee, S.; Jang, M., 2012:
Electronic transport of lateral PtSi/n/n+-Si Schottky diodes

Zhang, Z.H.; Qiu, M.; Deng, X.Q.; Ding, K.H.; Zhang, H., 2009:
Electronic transport of unimolecular devices with a group coadsorbed on one electrode surface: a density functional study

Homoth, J.; Wenderoth, M.; Druga, T.; Winking, L.; Ulbrich, R.G.; Bobisch, C.A.; Weyers, B.; Bannani, A.; Zubkov, E.; Bernhart, A.M.; Kaspers, M.R.; Möller, R., 2009:
Electronic transport on the nanoscale: ballistic transmission and Ohm's law

Morari, C.; Rungger, I.; Rocha, A.R.; Sanvito, S.; Melinte, S.; Rignanese, G-Marco., 2010:
Electronic transport properties of 1,1'-ferrocene dicarboxylic acid linked to Al(111) electrodes

Su, J.; Li, H.; Huang, Y.; Xing, X.; Zhao, J.; Zhang, Y., 2011:
Electronic transport properties of In-doped ZnO nanobelts with different concentration

Girão, E.Costa.; Cruz-Silva, E.; Meunier, V., 2012:
Electronic transport properties of assembled carbon nanoribbons

Girão, E.Costa.; Souza Filho, Aônio.Gomes.; Meunier, V., 2011:
Electronic transport properties of carbon nanotoroids

Triozon, Fçois.; Lambin, P.; Roche, S., 2005:
Electronic transport properties of carbon nanotube based metal/semiconductor/metal intramolecular junctions

Qian, H.; Lu, J-Qiang., 2010:
Electronic transport properties of coupled quantum dots on carbon nanotubes

Busiakiewicz, A.; Karthäuser, S.; Homberger, M.; Kowalzik, P.; Waser, R.; Simon, U., 2010:
Electronic transport properties of individual 4,4'-bis(mercaptoalkyl)-biphenyl derivatives measured in STM-based break junctions

Gómez-Navarro, C.; Weitz, R.Thomas.; Bittner, A.M.; Scolari, M.; Mews, A.; Burghard, M.; Kern, K., 2007:
Electronic transport properties of individual chemically reduced graphene oxide sheets

Toyama, K.; Nishioka, T.; Sawano, K.; Shiraki, Y.; Okamoto, T., 2008:
Electronic transport properties of the Ising quantum Hall ferromagnet in a Si quantum well

Zhao, X.; Wang, X.; Liu, X.; Yin, H.; Feng, L.; Wang, F.; Wan, W., 2014:
Electronic transport through a benzene-shaped quantum dots system

Chen, J-chai.; Cheng, S-guang.; Shen, S-qing.; Sun, Q-feng., 2010:
Electronic transport through a graphene-based ferromagnetic/normal/ferromagnetic junction

Caspary Toroker, M.; Peskin, U., 2007:
Electronic transport through molecular junctions with nonrigid molecule-leads coupling

Mahapatro, A.K.; Ying, J.; Ren, T.; Janes, D.B., 2008:
Electronic transport through ruthenium-based redox-active molecules in metal-molecule-metal nanogap junctions

Krompiewski, S., 2011:
Electronic transport through side-contacted graphene nanoribbons: effects of overlap, aspect ratio and orientation

Li, X-Fei.; Wang, L-Ling.; Chen, K-Qiu.; Luo, Y., 2012:
Electronic transport through zigzag/armchair graphene nanoribbon heterojunctions

Amdursky, N.; Marchak, D.; Sepunaru, L.; Pecht, I.; Sheves, M.; Cahen, D., 2015:
Electronic transport via proteins

Blömers, C.; Lu, J.G.; Huang, L.; Witte, C.; Grützmacher, D.; Lüth, H.; Schäpers, T., 2012:
Electronic transport with dielectric confinement in degenerate InN nanowires

Brito da Silva Júnior, C.Alberto.; Leal, Jé.Fernando.Pereira.; Aleixo, V.Ferrer.Pureza.; Pinheiro, F.A.; Del Nero, J., 2014:
Electronic transport, transition-voltage spectroscopy, and the Fano effect in single molecule junctions composed of a biphenyl molecule attached to metallic and semiconducting carbon nanotube electrodes

Salazar, A.; Tyroch, A.H.; Smead, D.G., 2012:
Electronic trauma patient outcomes assessment tool: performance improvement in the trauma intensive care unit

Nadol, P.; Stinson, K.W.; Coggin, W.; Naicker, M.; Wells, C.D.; Miller, B.; Nelson, L.J., 2008:
Electronic tuberculosis surveillance systems: a tool for managing today's TB programs

Gofryk, K.; Ronning, F.; Zhu, J-X.; Ou, M.N.; Tobash, P.H.; Stoyko, S.S.; Lu, X.; Mar, A.; Park, T.; Bauer, E.D.; Thompson, J.D.; Fisk, Z., 2012:
Electronic tuning and uniform superconductivity in CeCoIn5

Dolinar, B.S.; Berry, J.F., 2014:
Electronic tuning of Mo2(thioamidate)4 complexes through π-system substituents and cis/trans isomerism

César, V.; Lugan, Nël.; Lavigne, G., 2010:
Electronic tuning of a carbene center via remote chemical induction, and relevant effects in catalysis

Nishimura, T.; Noishiki, A.; Hayashi, T., 2011:
Electronic tuning of chiral diene ligands in iridium-catalyzed asymmetric 1,6-addition of arylboroxines to δ-aryl-α,β,γ,δ-unsaturated ketones

Hitomi, Y.; Arakawa, K.; Kodera, M., 2013:
Electronic tuning of iron-oxo-mediated C-H activation: effect of electron-donating ligand on selectivity

Spokoyny, A.M.; Li, T.C.; Farha, O.K.; Machan, C.W.; She, C.; Stern, C.L.; Marks, T.J.; Hupp, J.T.; Mirkin, C.A., 2010:
Electronic tuning of nickel-based bis(dicarbollide) redox shuttles in dye-sensitized solar cells

Hitomi, Y.; Iwamoto, Y.; Kodera, M., 2014:
Electronic tuning of nitric oxide release from manganese nitrosyl complexes by visible light irradiation: enhancement of nitric oxide release efficiency by the nitro-substituted quinoline ligand

Sears, R.Bryan.; Joyce, L.E.; Turro, C., 2010:
Electronic tuning of ruthenium complexes by 8-quinolate ligands

Job, A.; Wakamiya, A.; Kehr, G.; Erker, G.; Yamaguchi, S., 2010:
Electronic tuning of thiazolyl-capped π-conjugated compounds via a coordination/cyclization protocol with B(C6F5)3

Yang, M.; Oró-Solé, J.; Kusmartseva, A.; Fuertes, A.; Attfield, J.Paul., 2010:
Electronic tuning of two metals and colossal magnetoresistances in EuWO(1+x)N(2-x) perovskites

Egeler, C.; Jayakumar, A.; Ford, S., 2013:
Electronic tutorial for ultrasound-guided regional anesthesia has to be accurate to be of value

Young, S.D.; Klausner, J.; Fynn, R.; Bolan, R., 2014:
Electronic vending machines for dispensing rapid HIV self-testing kits: a case study

Maslove, D.M.; Leiter, R.E.; Griesman, J.; Arnott, C.; Mourad, O.; Chow, C-Ming.; Bell, C.M., 2010:
Electronic versus dictated hospital discharge summaries: a randomized controlled trial

Tang, S-J.; Lee, C-Yeh.; Huang, C-Chung.; Chang, T-Rong.; Cheng, C-Maw.; Tsuei, K-Ding.; Jeng, H-T.; Yeh, V.; Chiang, T-Chang., 2011:
Electronic versus lattice match for metal-semiconductor epitaxial growth: Pb on Ge(111)

Newgard, C.D.; Zive, D.; Jui, J.; Weathers, C.; Daya, M., 2012:
Electronic versus manual data processing: evaluating the use of electronic health records in out-of-hospital clinical research

Blondin, J.M.; Abu-Hasaballah, K.S.; Tennen, H.; Lalla, R.V., 2011:
Electronic versus paper diaries: a pilot study of concordance and adherence in head and neck cancer patients receiving radiation therapy

Duracinsky, M.; Lalanne, C.; Goujard, Cécile.; Herrmann, S.; Cheung-Lung, C.; Brosseau, J-Paul.; Schwartz, Y.; Chassany, O., 2014:
Electronic versus paper-based assessment of health-related quality of life specific to HIV disease: reliability study of the PROQOL-HIV questionnaire

Staromlynska, J.; Zanoni, R.; Stegeman, G.I., 1992:
Electronic versus thermal response for nonlinear prism coupling

Kawaida, M.; Fukuda, H.; Kohno, N., 2008:
Electronic videoendoscopy of laryngeal lesions using a new type of rhinolarynx endoscope portion

Rejmak, P.; Mitoraj, M.; Broclawik, E., 2010:
Electronic view on ethene adsorption in Cu(I) exchanged zeolites

Erickson, K.; Molle, V.Dalle., 2011:
Electronic visit documentation maximizes service effectiveness

Pan, F.; Chen, R.; Xiao, Y.; Sun, W., 2012:
Electronic voltage and current transformers testing device

Sharma, S.; Shariatmadar, S.; Krishan, A., 2010:
Electronic volume, aldehyde dehydrogenase, and stem cell marker expression in cells from human peripheral blood apheresis samples

Barbour, M.E., 2008:
Electronic voting in dental materials education: the impact on students' attitudes and exam performance

Duggan, P.M.; Palmer, E.; Devitt, P., 2007:
Electronic voting to encourage interactive lectures: a randomised trial

Ditmyer, M.M.; Dye, J.; Guirguis, N.; Jamison, K.; Moody, M.; Mobley, C.C.; Davenport, W.D., 2012:
Electronic vs. traditional textbook use: dental students' perceptions and study habits

Dube, R.; Subudhi, C.P.K.; Chadwick, P.R., 2013:
Electronic ward round: finding time for the inpatient with Clostridium difficile infection

Needhidasan, S.; Samuel, M.; Chidambaram, R., 2014:
Electronic waste - an emerging threat to the environment of urban India

Chen, M.; Wang, J.; Chen, H.; Ogunseitan, O.A.; Zhang, M.; Zang, H.; Hu, J., 2015:
Electronic waste disassembly with industrial waste heat

Anonymous, 2013:
Electronic waste--time to take stock

Tenforde, A.S.; Sainani, K.L.; Fredericson, M., 2010:
Electronic web-based surveys: an effective and emerging tool in research

Zhang, N.; Campo, S.; Janz, K.F.; Eckler, P.; Yang, J.; Snetselaar, L.G.; Signorini, A., 2014:
Electronic word of mouth on twitter about physical activity in the United States: exploratory infodemiology study

Hedges, R.A.; Goodman, D.; Sachs, P.B., 2015:
Electronic workflow for imaging in clinical research

Nelson-Filho, P.; Lucisano, M.Pacífico.; Leonardo, Mário.Roberto.; da Silva, R.Assed.Bezerra.; da Silva, Léa.Assed.Bezerra., 2011:
Electronic working length determination in primary teeth by ProPex and Digital Signal Processing

Bett, G.C.L.; Kaplan, A.D.; Lis, A.; Cimato, T.R.; Tzanakakis, E.S.; Zhou, Q.; Morales, M.J.; Rasmusson, R.L., 2014:
Electronic "expression" of the inward rectifier in cardiocytes derived from human-induced pluripotent stem cells

Pandeeswaran, M.; Elango, K.P., 2009:
Electronic, Raman and FT-IR spectral investigations of the charge transfer interactions between ketoconazole and povidone drugs with iodine

Gupta, D.C.; Bhat, I.Hamid., 2013:
Electronic, ductile, phase transition and mechanical properties of Lu-monopnictides under high pressures

Ma, W.; Chen, F., 2013:
Electronic, magnetic and optical properties of Cu, Ag, Au-doped Si clusters

Duan, C-Gang.; Sabirianov, R.F.; Mei, W.N.; Dowben, P.A.; Jaswal, S.S.; Tsymbal, E.Y., 2007:
Electronic, magnetic and transport properties of rare-earth monopnictides

Uzunova, E.L.; Mikosch, H., 2014:
Electronic, magnetic structure and water splitting reactivity of the iron-sulfur dimers and their hexacarbonyl complexes: A density functional study

Li, Y.; Fan, W.; Sun, H.; Cheng, X.; Li, P.; Zhao, X., 2011:
Electronic, optical and lattice dynamic properties of the novel diamond-like semiconductors Li2CdGeS4 and Li2CdSnS4

Leong, C.F.; Chan, B.; Faust, T.B.; Turner, P.; D'Alessandro, D.M., 2013:
Electronic, optical, and computational studies of a redox-active napthalenediimide-based coordination polymer

O'Hanlon, D.C.; Cohen, B.W.; Moravec, D.B.; Dallinger, R.F.; Hopkins, M.D., 2014:
Electronic, redox, and photophysical consequences of metal-for-carbon substitution in oligo-phenylene-ethynylenes

Baxter, P.N.W.; Al Ouahabi, A.; Gisselbrecht, J-Paul.; Brelot, L.; Varnek, A., 2011:
Electronic, spectroscopic, and ion-sensing properties of a dehydro[m]pyrido[14]- and [15]annulene isomer library

Kowaka, Y.; Yamanaka, T.; Baba, M., 2012:
Electronic, vibrational, and rotational structures in the S0 1A1 and S1 1A1 states of phenanthrene

Huang, M.; Pascal, T.A.; Kim, H.; Goddard, W.A.; Greer, J.R., 2011:
Electronic--mechanical coupling in graphene from in situ nanoindentation experiments and multiscale atomistic simulations

Lee, E.J.H.; Balasubramanian, K.; Dorfmüller, J.; Vogelgesang, R.; Fu, N.; Mews, A.; Burghard, M.; Kern, K., 2007:
Electronic-band-structure mapping of nanotube transistors by scanning photocurrent microscopy

Zingg, W.; Pittet, D., 2012:
Electronic-eye faucets-curse or blessing?

Sydnor, E.R.M.; Bova, G.; Gimburg, A.; Cosgrove, S.E.; Perl, T.M.; Maragakis, L.L., 2012:
Electronic-eye faucets: Legionella species contamination in healthcare settings

Kolk, A.; Hoelscher, M.; Maboko, L.; Jung, J.; Kuijper, S.; Cauchi, M.; Bessant, C.; van Beers, S.; Dutta, R.; Gibson, T.; Reither, K., 2011:
Electronic-nose technology using sputum samples in diagnosis of patients with tuberculosis

Bolton, M.Beth., 2007:
Electronic-prescribing quality improvement through health care technology

Chai, N.; Lucht, R.P.; Kulatilaka, W.D.; Roy, S.; Gord, J.R., 2010:
Electronic-resonance-enhanced coherent anti-Stokes Raman scattering of nitric oxide: saturation and Stark effects

Štacko, P.; Šolomek, Táš.; Klán, P., 2011:
Electronic-state switching strategy in the photochemical synthesis of indanones from o-methyl phenacyl epoxides

Ortiz-Sánchez, J.Manuel.; Gelabert, R.; Moreno, M.; Lluch, Jé.M., 2008:
Electronic-structure and quantum dynamical study of the photochromism of the aromatic Schiff base salicylideneaniline

Vecitis, C.D.; Zodrow, K.R.; Kang, S.; Elimelech, M., 2011:
Electronic-structure-dependent bacterial cytotoxicity of single-walled carbon nanotubes

He, C.; Zhang, Y.; Xie, B.P.; Wang, X.F.; Yang, L.X.; Zhou, B.; Chen, F.; Arita, M.; Shimada, K.; Namatame, H.; Taniguchi, M.; Chen, X.H.; Hu, J.P.; Feng, D.L., 2010:
Electronic-structure-driven magnetic and structure transitions in superconducting NaFeAs single crystals measured by angle-resolved photoemission spectroscopy

Kimura, S-ichi.; Iizuka, T.; Miyazaki, H.; Irizawa, A.; Muro, Y.; Takabatake, T., 2011:
Electronic-structure-driven magnetic ordering in a Kondo semiconductor CeOs2Al10

Kandemirli, F.; Vurdu, C.Dogan.; Basaran, M.Alper.; Sayiner, H.Sezgin.; Shvets, N.; Dimoglo, A.; Kovalish, V.; Polat, T., 2015:
Electronic-topological and neural network approaches to the structure- antimycobacterial activity relationships study on hydrazones derivatives

Zhou, J.; Maeda, Y.; Lu, J.; Tashiro, A.; Hasegawa, T.; Luo, G.; Wang, L.; Lai, L.; Akasaka, T.; Nagase, S.; Gao, Z.; Qin, R.; Mei, W.Ning.; Li, G.; Yu, D., 2008:
Electronic-type- and diameter-dependent reduction of single-walled carbon nanotubes induced by adsorption of electron-donor molecules

Al-Horani, R.A.; Desai, U.R., 2012:
Electronically Rich N-Substituted Tetrahydroisoquinoline 3-Carboxylic Acid Esters: Concise Synthesis and Conformational Studies

Wong, I.Y.; Footer, M.J.; Melosh, N.A., 2008 :
Electronically activated actin protein polymerization and alignment

Carey, G.H.; Kramer, I.J.; Kanjanaboos, P.; Moreno-Bautista, G.; Voznyy, O.; Rollny, L.; Tang, J.A.; Hoogland, S.; Sargent, E.H., 2014:
Electronically active impurities in colloidal quantum dot solids

Mei, X.; Ouyang, J., 2011:
Electronically and ionically conductive gels of ionic liquids and charge-transfer tetrathiafulvalene-tetracyanoquinodimethane

Pemberton, J.D.; Miller, J.; Commander, J.; Michalos, P.; Fay, A., 2013:
Electronically assisted nasolacrimal duct silicone intubation

García-Ramos, S.E.; Baldominos Utrilla, G., 2012:
Electronically assisted prescription will minimise drug transcription errors

Jones, A.; Cipcigan, F.; Sokhan, V.P.; Crain, J.; Martyna, G.J., 2013:
Electronically coarse-grained model for water

Riza, N.A.; Reza, S.Azer.; Marraccini, P.J., 2010:
Electronically controlled agile lens-based broadband variable photonic delay line for photonic and radio frequency signal processing

Kray, S.; Spöler, F.; Hellerer, T.; Kurz, H., 2010:
Electronically controlled coherent linear optical sampling for optical coherence tomography

Kloesel, L., 1999:
Electronically controlled drug delivery

DeRose, C.T.; Kekatpure, R.D.; Trotter, D.C.; Starbuck, A.; Wendt, J.R.; Yaacobi, A.; Watts, M.R.; Chettiar, U.; Engheta, N.; Davids, P.S., 2013:
Electronically controlled optical beam-steering by an active phased array of metallic nanoantennas

Dickson, W.; Wurtz, G.A.; Evans, P.R.; Pollard, R.J.; Zayats, A.V., 2007:
Electronically controlled surface plasmon dispersion and optical transmission through metallic hole arrays using liquid crystal

Dong, A.; Jiao, Y.; Milliron, D.J., 2013:
Electronically coupled nanocrystal superlattice films by in situ ligand exchange at the liquid-air interface

Raman, R.K.; Murdick, R.A.; Worhatch, R.J.; Murooka, Y.; Mahanti, S.D.; Han, T-Ru.T.; Ruan, C-Yu., 2010:
Electronically driven fragmentation of silver nanocrystals revealed by ultrafast electron crystallography

Balachandran, P.V.; Rajan, K.; Rondinelli, J.M., 2014:
Electronically driven structural transitions in A10(PO4)6F2 apatites (A = Ca, Sr, Pb, Cd and Hg)

Harb, M.; Ernstorfer, R.; Hebeisen, C.T.; Sciaini, Gán.; Peng, W.; Dartigalongue, T.; Eriksson, M.A.; Lagally, M.G.; Kruglik, S.G.; Miller, R.J.Dwayne., 2008:
Electronically driven structure changes of Si captured by femtosecond electron diffraction

Fry, A., 2012:
Electronically enabled drug-delivery devices: are they part of the future?

Karpichev, B.; Koziol, L.; Diri, K.; Reisler, H.; Krylov, A.I., 2010:
Electronically excited and ionized states of the CH2CH2OH radical: a theoretical study

Li, W.; Lesanovsky, I., 2012:
Electronically excited cold ion crystals

Leino, M.; Viel, A.; Zillich, R.E., 2008:
Electronically excited rubidium atom in a helium cluster or film

Leino, M.; Viel, A.; Zillich, R.E., 2011:
Electronically excited rubidium atom in helium clusters and films. II. Second excited state and absorption spectrum

Tuna, D.; Sobolewski, A.L.; Domcke, W., 2014:
Electronically excited states and photochemical reaction mechanisms of β-glucose

Gloess, A.N.; Schneider, H.; Weber, J.Mathias.; Kappes, M.M., 2008:
Electronically excited states and visible region photodissociation spectroscopy of Au(m)(+) . Ar(n) clusters (m=7-9): molecular dimensionality transition?

Panda, A.N.; Plasser, F.; Aquino, A.J.A.; Burghardt, I.; Lischka, H., 2013:
Electronically excited states in poly(p-phenylenevinylene): vertical excitations and torsional potentials from high-level ab initio calculations

Vayá, I.; Brazard, J.; Gustavsson, T.; Markovitsi, D., 2013:
Electronically excited states of DNA oligonucleotides with disordered base sequences studied by fluorescence spectroscopy

Romanov, A.N.; Gularyan, S.K.; Polyak, B.M.; Sakovich, R.A.; Dobretsov, G.E.; Sarkisov, O.M., 2011:
Electronically excited states of membrane fluorescent probe 4-dimethylaminochalcone. Results of quantum chemical calculations

Saed, B.; Omidyan, R., 2013:
Electronically excited states of protonated aromatic hydrocarbons: phenanthrene and pyrene

Alata, I.; Omidyan, R.; Dedonder-Lardeux, C.; Broquier, M.; Jouvet, C., 2009:
Electronically excited states of protonated aromatic molecules: benzaldehyde

Solheim, H.; Kornobis, K.; Ruud, K.; Kozlowski, P.M., 2011:
Electronically excited states of vitamin B12 and methylcobalamin: theoretical analysis of absorption, CD, and MCD data

Kornobis, K.; Kumar, N.; Wong, B.M.; Lodowski, P.; Jaworska, M.; Andruniów, T.; Ruud, K.; Kozlowski, P.M., 2011:
Electronically excited states of vitamin B12: benchmark calculations including time-dependent density functional theory and correlated ab initio methods

Svartsov, Y.N.; Schmitt, M., 2008:
Electronically excited states of water clusters of 7-azaindole: structures, relative energies, and electronic nature of the excited states

Yu, L.; Bian, W., 2012:
Electronically excited-state properties and predissociation mechanisms of phosphorus monofluoride: a theoretical study including spin-orbit coupling

Yoo, S.; Kim, S.; Lee, K-Hyuck.; Jeong, C.Wook.; Youn, S.Woong.; Park, K.Un.; Moon, S.Young.; Hwang, H., 2015:
Electronically implemented clinical indicators based on a data warehouse in a tertiary hospital: its clinical benefit and effectiveness

Yao, J.; Zhang, Y.; Wang, P.L.; Lutz, L.; Miller, G.J.; Mozharivskyj, Y., 2013:
Electronically induced ferromagnetic transitions in Sm5Ge4-type magnetoresponsive phases

Menzel, D., 2012:
Electronically induced surface reactions: evolution, concepts, and perspectives

Linton, O., 2007:
Electronically intuitive---not me

Chen, T.Minsue.; Vines, L.G.; Wanitphakdeedecha, R.; Nguyen, T.H., 2009:
Electronically linked: wireless, discrete, hands-free communication to improve surgical workflow in Mohs and dermasurgery clinic

Israni, A.K.; Weng, F.L.; Cen, Y-Ying.; Joffe, M.; Kamoun, M.; Feldman, H.I., 2011:
Electronically measured adherence to immunosuppressive medications and kidney function after deceased donor kidney transplantation

Vrijens, B.; Urquhart, J.; White, D., 2015:
Electronically monitored dosing histories can be used to develop a medication-taking habit and manage patient adherence

Riegel, B.; Knafl, G.J., 2013:
Electronically monitored medication adherence predicts hospitalization in heart failure patients

Kauffman, D.R.; Star, A., 2008:
Electronically monitoring biological interactions with carbon nanotube field-effect transistors

Tao, G., 2014:
Electronically nonadiabatic dynamics in complex molecular systems: an efficient and accurate semiclassical solution

Miller, W.H., 2009:
Electronically nonadiabatic dynamics via semiclassical initial value methods

Ebert, P.; Landrock, S.; Jiang, Y.; Wu, K.H.; Wang, E.G.; Dunin-Borkowski, R.E., 2012:
Electronically nonalloyed state of a statistical single atomic layer semiconductor alloy

Yu, C.; Duan, Z.; Yuan, P.; Li, Y.; Su, Y.; Zhang, X.; Pan, Y.; Dai, L.L.; Nuzzo, R.G.; Huang, Y.; Jiang, H.; Rogers, J.A., 2013:
Electronically programmable, reversible shape change in two- and three-dimensional hydrogel structures

Guha, S.; Goodson, F.S.; Roy, S.; Corson, L.J.; Gravenmier, C.A.; Saha, S., 2012:
Electronically regulated thermally and light-gated electron transfer from anions to naphthalenediimides

Segawa, H.; Fukutake, N.; Leproux, P.; Couderc, V.; Ozawa, T.; Kano, H., 2014:
Electronically resonant third-order sum frequency generation spectroscopy using a nanosecond white-light supercontinuum

Soref, R.A., 1970:
Electronically scanned analog liquid crystal displays

Chen, S.; Rogers, A.J.; Meggitt, B.T., 1991:
Electronically scanned optical-fiber Young's white-light interferometer

Corcoran, V.J.; Crabbe, I.A., 1974:
Electronically scanned waveguide laser arrays

Dändliker, R.; Zimmermann, E.; Frosio, G., 1992:
Electronically scanned white-light interferometry: a novel noise-resistant signal processing

Hoeft, F.; Wu, D-An.; Hernandez, A.; Glover, G.H.; Shimojo, S., 2008:
Electronically switchable sham transcranial magnetic stimulation (TMS) system

Ax, F.; Ekedahl, A., 2010:
Electronically transmitted prescriptions not picked up at pharmacies in Sweden

Wong, C.Pei.Yu.; Koek, T.Jun.Hui.; Liu, Y.; Loh, K.Ping.; Goh, K.Eng.Johnson.; Troadec, C.; Nijhuis, C.A., 2014:
Electronically transparent graphene barriers against unwanted doping of silicon

Ogle, J.W.; Miller, S.A., 2009:
Electronically tunable N-heterocyclic carbene ligands: 1,3-diaryl vs. 4,5-diaryl substitution

Franconetti, A.; Contreras-Bernal, L.; Jatunov, S.; Gómez-Guillén, M.; Angulo, M.; Prado-Gotor, R.; Cabrera-Escribano, F., 2015:
Electronically tunable anion-π interactions in pyrylium complexes: experimental and theoretical studies

Struckmeier, J.; Euteneuer, A.; Smarsly, B.; Breede, M.; Born, M.; Hofmann, M.; Hildebrand, L.; Sacher, J., 2007:
Electronically tunable external-cavity laser diode

Chen, H-Pin., 2015:
Electronically tunable quadrature oscillator using grounded components with current and voltage outputs

Khan, S.; Baghban, M.Amin.; Fathpour, S., 2011:
Electronically tunable silicon photonic delay lines

Andrews, J.R., 1991:
Electronically tunable single-mode external-cavity diode laser

Wysocki, P.F.; Digonnet, M.J.; Kim, B.Y., 1990:
Electronically tunable, 1.55-microm erbium-doped fiber laser

Verma, M.; Chaudhry, A.F.; Morgan, M.Thomas.; Fahrni, C.J., 2010:
Electronically tuned 1,3,5-triarylpyrazolines as Cu(I)-selective fluorescent probes

Wada, S.; Akagawa, K.; Tashiro, H., 1996:
Electronically tuned Ti:sapphire laser

Zhang, Q.; Dixon, G.J.; Chai, B.H.; Kean, P.N., 1992:
Electronically tuned diode-laser-pumped Cr:LiSrA1F(6) laser

Yamagishi, A.; Szabo, A., 1977:
Electronically tuned pulsed dye laser

Maxwell, A.C.; Franc, C.; Pouchain, L.; Müller-Bunz, H.; Guiry, P.J., 2008:
Electronically varied quinazolinaps for asymmetric catalysis

Ritter, C.; Dhar, S.K.; Kulkarni, R.; Provino, A.; Paudyal, D.; Manfrinetti, P.; Gschneidner, K.A., 2014:
Electronically- and crystal-structure-driven magnetic structures and physical properties of RScSb (R = rare earth) compounds: a neutron diffraction, magnetization and heat capacity study

Branscomb, L.M., 1982:
Electronics and computers

Singh, A.K.; Yakobson, B.I., 2009:
Electronics and magnetism of patterned graphene nanoroads

Dinneen, G.P.; Frick, F.C., 1977:
Electronics and national defense: a case study

Abelson, P.H., 1980:
Electronics and scientific communication

Leonard, E.F., 1962:
Electronics and the Life Sciences

Jupe, J.H., 1947:
Electronics and the chemical industry

Norman, C., 1982:
Electronics firms plug into the universities

Wolf, B.; Herzog, K., 2014:
Electronics for better healthcare

Colson, T., 2018:
Electronics for the doctor

Elmore, W.C., 1948:
Electronics for the nuclear physicist

Calosso, C.E.; Micalizio, S.; Godone, A.; Bertacco, E.K.; Levi, F., 2007:
Electronics for the pulsed rubidium clock: design and characterization

Shapley, D., 1978:
Electronics industry takes to "potting" its products for market

Courtois, B.; Charlot, B.; Di Pendina, G.; Rufer, L., 2009:
Electronics manufacturing infrastructures for education and commercialization

Abelson, P.H.; Hammond, A.L., 1977:
Electronics revolution

Pierce, J.R., 1977:
Electronics: past, present, and future

Likhachev, S.A.; Veevnik, E.V., 2011:
Electronistagmographic characteristics of vestibular function and eyelids dystonia in patients with facial dyskinesias

Kiermayer, O., 1971:
Electronmicroscopic detection of a special kind of cytoplasmic vesicle in Micrasterias denticulata

Selkov, E.A., 1949:
Electronomicroscopic data on the effect of penicillin on gonococci

Webster, A.G., 1911:
Electrons

Panofsky, W.K.; Neal, R.B., 1966:
Electrons Accelerated to the 10-to 20-Gev Range

Simpson, J.A.; Eraker, J.H.; Lamport, J.E.; Walpole, P.H., 1974:
Electrons and Protons Accelerated in Mercury's Magnetic Field

Walz, M-Madeleine.; Schirmer, M.; Vollnhals, F.; Lukasczyk, T.; Steinrück, H-Peter.; Marbach, H., 2010:
Electrons as "invisible ink": fabrication of nanostructures by local electron beam induced activation of SiOx

Ran, K.; Zuo, J-Min.; Chen, Q.; Shi, Z., 2012:
Electrons for single molecule diffraction and imaging

Ogo, S., 2009:
Electrons from hydrogen

Mott, N., 1978:
Electrons in glass

Berggren, K-F.; Pepper, M., 2010:
Electrons in one dimension

Howard, R.E.; Jackel, L.D.; Mankiewich, P.M.; Skocpol, W.J., 1986:
Electrons in silicon microstructures

Akhmanov, S.A.; Andreev, A.V., 1991:
Electrons in the interference field as a system for effective nonlinear transformations of superintense laser pulses

Tütüncü, H.M.; Baǧcı, S.; Srivastava, G.P.; Akbulut, A., 2012:
Electrons, phonons and superconductivity in rocksalt and tungsten-carbide phases of CrC

Claridge, S.A.; Schwartz, J.J.; Weiss, P.S., 2011:
Electrons, photons, and force: quantitative single-molecule measurements from physics to biology

Szirmai, A.; Keller, Bázs., 2012:
Electronystagmographic analysis of optokinetic and smooth pursuit eye movement disorders in vestibular lesions

Murphy, E., 2008 :
Electronystagmography battery

Zeigelboim, B.Simone.; Teive, Hélio.A.G.; Sampaio, R.; Jurkiewicz, A.Leon.; Liberalesso, P.B.N., 2012:
Electronystagmography findings in spinocerebellar ataxia type 3 (SCA3) and type 2 (SCA2)

Mora, R.; Dellepiane, M.; Barettini, L.; Crippa, B.; Salami, A., 2009:
Electronystagmography in migraine equivalent syndrome

Ganança, Mício.Malavasi.; Caovilla, Hísa.Helena.; Ganança, F.Freitas., 2011:
Electronystagmography versus videonystagmography

Lee, R.M.H.; Robson, A.G.; Hughes, E.H., 2014:
Electrooculogram (EOG) findings in a case of acute exudative polymorphous vitelliform maculopathy (AEPVM) detected following trauma

Kherlopian, A.R.; Gerrein, J.P.; Yue, M.; Kim, K.E.; Kim, J.Won.; Sukumaran, M.; Sajda, P., 2007:
Electrooculogram based system for computer control using a multiple feature classification model

Belov, D.P.; Eram, S.Y.; Kolodyazhnyi, S.F.; Kanunikov, I.E.; Getmanenko, O.V., 2011:
Electrooculogram detection of eye movements on gaze displacement

Galiana-Merino, J.José.; Ruiz-Fernández, D.; Jarones-González, Aín., 2014:
Electrooculogram filtering using wavelet and wavelet packet transforms

Philips, G.R.; Catellier, A.A.; Barrett, S.F.; Wright, C.H.G., 2007:
Electrooculogram wheelchair control

Makati, R.; Shechtman, D.; Besada, E.; Pizzimenti, J.J., 2015:
Electrooculography and optical coherence tomography reveal late-onset Best disease

Rubin, L.R., 1949:
Electroodontodiagnosis

Pinato, G.; Rievaj, J.; Pifferi, S.; Dibattista, M.; Masten, L.; Menini, A., 2008:
Electroolfactogram responses from organotypic cultures of the olfactory epithelium from postnatal mice

Soref, R.A., 1982:
Electrooptic 4x4 matrix switch for multimode fiber-optic systems

Philipp-Rutz, E.M.; Linares, R.; Fakuda, M., 1982:
Electrooptic Bragg diffraction switches in low cross-talk integrated-optics switching matrix

Lee, Y.K.; Wang, S., 1976:
Electrooptic Bragg-deflection modulators: theoretical and experimental studies

Burton, C.H.; Leistner, A.J.; Rust, D.M., 1987:
Electrooptic Fabry-Perot filter: development for the study of solar oscillations

Beasley, J.D., 1971:
Electrooptic Laser Scanner for TV Projection Display

Guliĭ, O.I.; Markina, L.N.; Ignatov, V.V.; Ignatov, O.V., 2009:
Electrooptic analysis for investigation of antibiotics synergistic action with respect to Escherichia coli

Thylen, L.; Stensland, L., 1981:
Electrooptic approach to an integrated optics spectrum analyzer

Brown, B.L.; Jennings, B.R.; Plummer, H., 1969:
Electrooptic birefringence and scattering of hectorite suspensions

Rosner, R.D.; Turner, E.H., 1968:
Electrooptic coefficients in calcium pyroniobate

Stafsudd, O.M.; Haak, F.A.; Radisavljević, K., 1967:
Electrooptic constant of cadmium telluride

Cohen, J.D., 1991:
Electrooptic detector of temporally coherent radiation

Tangonan, G.L.; Persechini, D.L.; Lotspeich, J.F.; Barnoski, M.K., 1978:
Electrooptic diffraction modulation in Ti-diffused LiTaO(3)

Maldonado, T.A.; Gaylord, T.K., 1988:
Electrooptic effect calculations: simplified procedure for arbitrary cases

Fong, B.M.; Martin-Pereda, J.A., 1985:
Electrooptic effect in cholesteric blue phases with small positive dielectric anisotropy

Stetson, K.A.; Brohinsky, W.R., 1985:
Electrooptic holography and its application to hologram interferometry

Arvidsson, G.; Thylén, L., 1982:
Electrooptic integrated optics spectrum analyzer: an experimental investigation

Allahverdyan, K.; Galstian, T., 2011:
Electrooptic jumps in natural helicoidal photonic bandgap structures

Kaminow, I.P.; Turner, E.H., 1966:
Electrooptic light modulators

Russo, D.P.; Harris, J.H., 1971:
Electrooptic modulation in a thin film waveguide

Dicken, M.J.; Sweatlock, L.A.; Pacifici, D.; Lezec, H.J.; Bhattacharya, K.; Atwater, H.A., 2008:
Electrooptic modulation in thin film barium titanate plasmonic interferometers

Glenar, D.A.; Jennings, D.E.; Nadler, S., 1990:
Electrooptic modulation methods for high sensitivity tunable diode laser spectroscopy

Tang, P.; Towner, D.; Hamano, T.; Meier, A.; Wessels, B., 2004:
Electrooptic modulation up to 40 GHz in a barium titanate thin film waveguide modulator

Nelson, A.R.; McMahon, D.H.; Gravel, R.L., 1978:
Electrooptic multiplexer system for multimode fiber communications

Rider, D.M.; Schofield, J.T.; Margolis, J.S.; McCleese, D.J., 1986:
Electrooptic phase modulation gas correlation spectroscopy: a laboratory demonstration

Nelson, A.R.; Soref, R.A., 1977:
Electrooptic polarization switch for multimode fibers

Eldering, C.A.; Kowel, S.T.; Mortazavi, M.A.; Brinkley, P.F., 1990:
Electrooptic polymer materials and devices for global optical interconnects

Kerker, M.; Cooke, D.D., 1971:
Electrooptic properties of absorbing spheroids

Elliott, R.A.; Shaw, J.B., 1979:
Electrooptic streak camera: theoretical analysis

Kirkby, C.J., 1976:
Electrooptic switching response in cubic phase PLZT ceramic materials

Boczar, B.P.; Scott, J.W.; Geer, J.F., 1987:
Electrooptic tuning of critically phase matched second harmonic generators

Lee, K.S., 1990:
Electrooptic voltage sensor: birefringence effects and compensation methods

Goruk, W.S.; Vella, P.J.; Normandin, R.; Stegeman, G.I., 1981:
Electrooptic-photorefractive modulation in Ti:LiNbO(3) waveguides

Cole, T.W., 1978:
Electrooptical array processor for complex signals

Ito, M.; Teramoto, Y.; Nishio, Y., 2012:
Electrooptical behavior of aqueous (hydroxypropyl)cellulose liquid crystals containing imidazolium salts

Martin-Pereda, J.A.; Muriel, M.A.; Oton, J.M., 1984:
Electrooptical behavior of twisted-wedge nematic structures

Marks, A.M., 1969:
Electrooptical characteristics of dipole suspensions

Klemeshev, S.A.; Petrov, M.P.; Trusov, A.A.; Voitylov, A.V., 2011:
Electrooptical effects in colloid systems subjected to short pulses of strong electric field

Gagné, J.M.; Bures, J.; Laberge, N., 1973:
Electrooptical fabry-perot spectroscopy

Landreth, C.C.; Adrian, R.J., 1988:
Electrooptical image shifting for particle image velocimetry

Adams, B.; Case, S.K., 1983:
Electrooptical imaging system using wavelength coding

Bocker, R.P.; Clayton, S.R.; Bromley, K., 1983:
Electrooptical matrix multiplication using the twos complement arithmetic for improved accuracy

Junne, S.; Nicolas Cruz-Bournazou, M.; Angersbach, A.; Götz, P., 2011:
Electrooptical monitoring of cell polarizability and cell size in aerobic Escherichia coli batch cultivations

Casasent, D.; Stephenson, J., 1972:
Electrooptical processing of phased-array antenna data

Ersoy, O.K., 1987:
Electrooptical processing of signal transforms

McCrady, D.D., 1984:
Electrooptical processor module

McCrady, D.D.; Spence, J.E.; McCollough, W.V., 1982:
Electrooptical processor performance model

Duan, X-Xia.; Huang, S-Hua.; Teng, F.; Xu, Z.; Dong, L-Qiang., 2010:
Electrooptical properties of nanoscale and bulk SrAl2O4: Eu, Dy

Guliĭ, O.I.; Matora, L.Iu.; Burygin, G.L.; Dykman, L.A.; Ignatov, V.V.; Ignatov, O.V., 2010:
Electrooptical properties of the microbial suspensions during a cell's interaction with the antibodies of a different specificity

Myers, V.I.; Allen, W.A., 1968:
Electrooptical remote sensing methods as nondestructive testing and measuring techniques in agriculture

Becker, R.A.; Chang, W.S., 1979:
Electrooptical switching in thin film waveguides for a computer communication bus

Marcus, S.; Carter, G.M., 1979:
Electrooptically Q-switched CO(2) waveguide laser

Zajac, A.; Skorczakowski, M.; Swiderski, J.; Nyga, P., 2004:
Electrooptically Q-switched mid-infrared Er:YAG laser for medical applications

Döbele, H.F.; Gindele, K., 1977:
Electrooptically switched multipass system for laser scattering diagnostics

France, W.G.; Turk, A., 1949:
Electroorganic reductions; the effect of dielectric constant of the solvent

Sherwood, J.D.; Mao, M.; Ghosal, S., 2015:
Electroosmosis in a finite cylindrical pore: simple models of end effects

Wang, M.; Chen, S., 2007:
Electroosmosis in homogeneously charged micro- and nanoscale random porous media

Byun, C.Kyu.; Wang, X.; Pu, Q.; Liu, S., 2007:
Electroosmosis-based nanopipettor

Tang, L.; Huber, C.O., 1994:
Electroosmotic flow and injection: application to conductimetry

Herr, N.R.; Kile, B.M.; Carelli, R.M.; Wightman, R.Mark., 2008:
Electroosmotic flow and its contribution to iontophoretic delivery

Chen, L.; Conlisk, A.T., 2007:
Electroosmotic flow and particle transport in micro/nano nozzles and diffusers

Moscicka-Studzinska, A.; Kijeńska, E.; Ciach, T., 2010:
Electroosmotic flow as a result of buccal iontophoresis--buccal mucosa properties

Yusko, E.C.; An, R.; Mayer, M., 2010:
Electroosmotic flow can generate ion current rectification in nano- and micropores

Chen, L-Chia.; Wu, C-Chou.; Wu, R-Guei.; Chang, H-Chang., 2012:
Electroosmotic flow control in microfluidic chips using a self-assembled monolayer as the insulator of a flow field-effect transistor

Halpern, D.; Wei, H-Hung., 2007:
Electroosmotic flow in a microcavity with nonuniform surface charges

Movahed, S.; Khani, S.; Wen, J.Z.; Li, D., 2012:
Electroosmotic flow in a water column surrounded by an immiscible liquid

Yasui, T.; Kaji, N.; Mohamadi, M.Reza.; Okamoto, Y.; Tokeshi, M.; Horiike, Y.; Baba, Y., 2012:
Electroosmotic flow in microchannels with nanostructures

Haywood, D.G.; Harms, Z.D.; Jacobson, S.C., 2015:
Electroosmotic flow in nanofluidic channels

Chen, Y.; Ni, Z.; Wang, G.; Xu, D.; Li, D., 2007:
Electroosmotic flow in nanotubes with high surface charge densities

Jin, P.; Mukaibo, H.; Horne, L.P.; Bishop, G.W.; Martin, C.R., 2010:
Electroosmotic flow rectification in pyramidal-pore mica membranes

Hsieh, S-Shing.; Lin, H-Chun.; Lin, C-Yi., 2006:
Electroosmotic flow velocity measurements in a square microchannel

Breadmore, M.C., 2010:
Electroosmotic flow-balanced isotachophoretic stacking with continuous electrokinetic injection for the concentration of anions in high conductivity samples

Borowsky, J.F.; Giordano, B.C.; Lu, Q.; Terray, A.; Collins, G.E., 2008:
Electroosmotic flow-based pump for liquid chromatography on a planar microchip

Ou, Y.; Wu, J.; Sandberg, M.; Weber, S.G., 2015:
Electroosmotic perfusion of tissue: sampling the extracellular space and quantitative assessment of membrane-bound enzyme activity in organotypic hippocampal slice cultures

Suss, M.E.; Mani, A.; Zangle, T.A.; Santiago, J.G., 2011:
Electroosmotic pump performance is affected by concentration polarizations of both electrodes and pump

Xu, L.; Dong, X-Yan.; Sun, Y., 2009:
Electroosmotic pump-assisted capillary electrophoresis of proteins

Wang, X.; Cheng, C.; Wang, S.; Liu, S., 2010:
Electroosmotic pumps and their applications in microfluidic systems

Wang, X.; Wang, S.; Gendhar, B.; Cheng, C.; Byun, C.Kyu.; Li, G.; Zhao, M.; Liu, S., 2010:
Electroosmotic pumps for microflow analysis

Xu, H.; Guy, Y.; Hamsher, A.; Shi, G.; Sandberg, M.; Weber, S.G., 2010:
Electroosmotic sampling. Application to determination of ectopeptidase activity in organotypic hippocampal slice cultures

Mampallil, D.; van den Ende, D., 2013:
Electroosmotic shear flow in microchannels

Dutet, J.; Delgado-Charro, M.Begoña., 2010:
Electroosmotic transport of mannitol across human nail during constant current iontophoresis

Dutta, D., 2007:
Electroosmotic transport through rectangular channels with small zeta potentials

Keh, H.J.; Wu, Y.Y., 2011:
Electroosmotic velocity and electric conductivity in a fibrous porous medium in the transverse direction

Chebbi, R., 2011:
Electroosmotic-capillary penetration in circular microchannels

Kumar, S.; Zou, S., 2008:
Electrooxidation of CO on uniform arrays of Au nanoparticles: effects of particle size and interparticle spacing

Torriero, A.A.J.; Shiddiky, M.J.A.; Bullock, J.P.; Boas, J.F.; MacFarlane, D.R.; Bond, A.M., 2010:
Electrooxidation of [(eta(5)-C5H5)Fe(CO)2]2 as a probe of the nucleophilic properties of ionic liquid anions

Brownell, K.R.; McCrory, C.C.L.; Chidsey, C.E.D.; Perry, R.H.; Zare, R.N.; Waymouth, R.M., 2013:
Electrooxidation of alcohols catalyzed by amino alcohol ligated ruthenium complexes

Kumar, S.; Zou, S., 2007:
Electrooxidation of carbon monoxide and methanol on platinum-overlayer-coated gold nanoparticles: effects of film thickness

Marchionni, A.; Bevilacqua, M.; Bianchini, C.; Chen, Y-Xin.; Filippi, J.; Fornasiero, P.; Lavacchi, A.; Miller, H.; Wang, L.; Vizza, F., 2013:
Electrooxidation of ethylene glycol and glycerol on Pd-(Ni-Zn)/C anodes in direct alcohol fuel cells

Masek, A.; Zaborski, M.; Chrzescijanska, E., 2011:
Electrooxidation of flavonoids at platinum electrode studied by cyclic voltammetry

Miao, F.; Tao, B., 2013:
Electrooxidation of formaldehyde based on nickel-palladium modified ordered mesoporous silicon

Eslami, M.; Namazian, M.; Zare, H.R., 2013:
Electrooxidation of homogentisic acid in aqueous and mixed solvent solutions: experimental and theoretical studies

Barndõk, H.; Hermosilla, D.; Cortijo, L.; Torres, E.; Blanco, A., 2014:
Electrooxidation of industrial wastewater containing 1,4-dioxane in the presence of different salts

Morgan, A.; Kavanagh, R.; Lin, W-Feng.; Hardacre, C.; Hu, P., 2013:
Electrooxidation of methanol in an alkaline fuel cell: determination of the nature of the initial adsorbate

Patra, S.; Munichandraiah, N., 2009:
Electrooxidation of methanol on Pt-modified conductive polymer PEDOT

Masek, A.; Chrzescijanska, E.; Zaborski, M., 2014:
Electrooxidation of morin hydrate at a Pt electrode studied by cyclic voltammetry

Silveira, G.; de Morais, Aéia.; Villis, P.César.Mendes.; Maroneze, C.Marchetti.; Gushikem, Y.; Lucho, A.Maria.Serpa.; Pissetti, Fábio.Luiz., 2011:
Electrooxidation of nitrite on a silica-cerium mixed oxide carbon paste electrode

Li, Q.; Batchelor-McAuley, C.; Compton, R.G., 2010:
Electrooxidative decarboxylation of vanillylmandelic acid: voltammetric differentiation between the structurally related compounds homovanillic acid and vanillylmandelic acid

Lee, S.Bo.; Ju, Y.; Kim, Y.; Koo, C.Min.; Kim, J., 2013:
Electrooxidative grafting of amine-terminated dendrimers encapsulating nanoparticles for spatially controlled surface functionalization of indium tin oxide

Kuruvilla, M.S.; Murdoch, B.E.; Goozee, J.V., 2008:
Electropalatographic (EPG) assessment of tongue-to-palate contacts in dysarthric speakers following TBI

Yamashita, Y.; Michi, K.; Imai, S.; Suzuki, N.; Yoshida, H., 1992:
Electropalatographic investigation of abnormal lingual-palatal contact patterns in cleft palate patients

Liker, M.; Horga, D.; Mildner, V., 2012:
Electropalatographic specification of Croatian fricatives /s/ and /z/

Cleland, J.; Timmins, C.; Wood, S.E.; Hardcastle, W.J.; Wishart, J.G., 2010:
Electropalatographic therapy for children and young people with Down's syndrome

Mantie-Kozlowski, A.; Pitt, K., 2014:
Electropalatography as an adjunct to nonspeech orofacial myofunctional disorder assessments: a feasibility study

Lee, A.S-Y.; Law, J.; Gibbon, F.E., 2009:
Electropalatography for articulation disorders associated with cleft palate

Lohmander, A.; Henriksson, C.; Havstam, C., 2011:
Electropalatography in home training of retracted articulation in a Swedish child with cleft palate: effect on articulation pattern and speech

Nordberg, A.; Carlsson, Göran.; Lohmander, A., 2012:
Electropalatography in the description and treatment of speech disorders in five children with cerebral palsy

Zhao, J.; Huang, W.; Yao, Y.; Trew, M.L.; Smaill, B.H.; Pullan, A.J.; Zhang, S., 2012:
Electropathological substrate detection of persistent atrial fibrillation--a novel method to analyze unipolar electrograms of noncontact mapping

Allessie, M.A.; de Groot, N.M.S.; Houben, R.P.M.; Schotten, U.; Boersma, E.; Smeets, J.L.; Crijns, H.J., 2011:
Electropathological substrate of long-standing persistent atrial fibrillation in patients with structural heart disease: longitudinal dissociation

de Groot, N.M.S.; Houben, R.P.M.; Smeets, J.L.; Boersma, E.; Schotten, U.; Schalij, M.J.; Crijns, H.; Allessie, M.A., 2010:
Electropathological substrate of longstanding persistent atrial fibrillation in patients with structural heart disease: epicardial breakthrough

Patzak, B.; Winter, E.; Reiter, C.; Jellinek, S.; Biegelmeier, G., 2014:
Electropathology in Vienna, an exhibition on accident prevention

Tria, M.Celeste.R.; Advincula, R.C., 2012:
Electropatterning of binary polymer brushes by surface-initiated RAFT and ATRP

Tugwell, J.; Brennan, P.; O'Shea, C.; O'Donoghue, K.; Power, T.; O'Shea, M.; Griffiths, J.; Cahill, R.; Cantillon-Murphy, P., 2016:
Electropermanent magnetic anchoring for surgery and endoscopy

Newbold, C.; Farrington, A.; Peters, L.; Cowan, R.; Needham, K., 2015:
Electropermeabilization of adherent cells with cochlear implant electrical stimulation in vitro

Napotnik, T.Batista.; Rebersek, M.; Kotnik, T.; Lebrasseur, E.; Cabodevila, G.; Miklavcic, D., 2011:
Electropermeabilization of endocytotic vesicles in B16 F1 mouse melanoma cells

Teissie, J., 2014:
Electropermeabilization of the cell membrane

Dimpfel, W.; Hoffmann, J.A., 2011:
Electropharmacograms of rasagiline, its metabolite aminoindan and selegiline in the freely moving rat

Tu, D-na.; Liao, Y-hua.; Zou, A-ruo.; Du, Y-mei.; Run, Q.; Wang, X-pei.; Li, L., 2008:
Electropharmacological properties of telmisartan in blocking hKv1.5 and HERG potassium channels expressed on Xenopus laevis oocytes

Dzikwi, A.; Umoh, J.U.; Kwaga, J.K.P.; Ahmad, A.A.; deBeer, M.; Steele, A.D., 2009:
Electropherotypes and subgroups of group A rotaviruses circulating among diarrhoeic children in Kano, Nigeria

Akran, V.; Akoua-Koffi, C.; Kette, H.; Dosso, M., 2007:
Electropherotypes of Rotaviruses in Children less than 5 years old in Abidjan, Cote D'ivoire in 1997

Koleva, G.; Galabov, B.; Wu, J.I.; Schaefer, H.F.; Schleyer, P.von.R., 2009:
Electrophile affinity: a reactivity measure for aromatic substitution

Galabov, B.; Koleva, G.; Schaefer, H.F.; Schleyer, P.v.R., 2010:
Electrophile affinity: quantifying reactivity for the bromination of arenes

Patil, N.T.; Konala, A.; Sravanti, S.; Singh, A.; Ummanni, R.; Sridhar, B., 2014:
Electrophile induced branching cascade: a powerful approach to access various molecular scaffolds and their exploration as novel anti-mycobacterial agents

Marsden, S.P.; Newton, R., 2007:
Electrophile-directed diastereoselective alkylation of prochiral enediolates

Ali, S.; Zhu, H-Tao.; Xia, X-Feng.; Ji, K-Gong.; Yang, Y-Fang.; Song, X-Rong.; Liang, Y-Min., 2011:
Electrophile-driven regioselective synthesis of functionalized quinolines

Ganesh, V.; Kundu, T.; Chandrasekaran, S., 2012:
Electrophile-induced C-C bond activation of vinylcyclopropanes for the synthesis of Z-alkylidenetetrahydrofurans

D'hooghe, M.; Buyck, C.; Contreras, J.; De Kimpe, N., 2008:
Electrophile-induced bromocyclization of gamma,delta-unsaturated ketimines to intermediate 1-pyrrolinium salts and their selective conversion into novel 5-alkoxymethyl-2-aryl-3-chloropyrroles and 2-aroylpyrroles

Wen, S-Guang.; Liu, W-Min.; Liang, Y-Min., 2008:
Electrophile-induced cyclization/migration reaction for the synthesis of 2,3-dihydro-5-iodopyran-4-one

Arnott, G.; Brice, H.; Clayden, J.; Blaney, E., 2008:
Electrophile-induced dearomatizing spirocyclization of N-arylisonicotinamides: a route to spirocyclic piperidines

Kartika, R.; Frein, J.D.; Taylor, R.E., 2008:
Electrophile-induced ether transfer: stereoselective synthesis of 2,6-disubstituted-3,4-dihydropyrans

Mernyák, Eébet.; Márk, László.; Frank, E.; Schneider, G.; Wölfling, János., 2009:
Electrophile-induced generation of cyclic azomethine imines from steroidal delta-alkenyl hydrazones

Frank, Ré.; Adhikari, A.Kumar.; Auer, H.; Hey-Hawkins, E., 2014:
Electrophile-induced nucleophilic substitution of the nido-dicarbaundecaborate anion nido-7,8-C2B9H12- by conjugated heterodienes

Nakamura, Y.; Miyoshi, N., 2010:
Electrophiles in foods: the current status of isothiocyanates and their chemical biology

De Vries, T.S.; Vedejs, E., 2008:
Electrophilic Activation of Lewis Base Complexes of Borane with Trityl Tetrakis(pentafluorophenyl)borate

Prokofjevs, A.; Jermaks, J.; Borovika, A.; Kampf, J.W.; Vedejs, E., 2013:
Electrophilic C-H Borylation and Related Reactions of B-H Boron Cations

Roe, C.; Stephenson, G.Richard., 2007:
Electrophilic C12 building blocks for alkaloids: formal total synthesis of (+/-)-maritidine

Yin, H.; Lewis, A.J.; Carroll, P.; Schelter, E.J., 2013:
Electrophilic Ln(III) cations protected by C-F → Ln interactions and their coordination chemistry with weak σ- and π-donors

Hogan, C.M.; Thatcher, T.H.; Sapinoro, R.E.; Gurell, M.N.; Ferguson, H.E.; Pollock, S.J.; Jones, C.; Phipps, R.P.; Sime, P.J., 2011:
Electrophilic PPARγ Ligands Attenuate IL-1β and Silica-Induced Inflammatory Mediator Production in Human Lung Fibroblasts via a PPARγ-Independent Mechanism

Kuriyan, A.E.; Lehmann, G.M.; Kulkarni, A.A.; Woeller, C.F.; Feldon, S.E.; Hindman, H.B.; Sime, P.J.; Huxlin, K.R.; Phipps, R.P., 2012:
Electrophilic PPARγ ligands inhibit corneal fibroblast to myofibroblast differentiation in vitro: a potentially novel therapy for corneal scarring

Felix, R.J.; Munro-Leighton, C.; Gagné, M.R., 2015:
Electrophilic Pt(II) complexes: precision instruments for the initiation of transformations mediated by the cation-olefin reaction

Liu, S.; Peloso, R.; Pattacini, R.; Braunstein, P., 2010:
Electrophilic activation and the formation of an unusual Tl+/Cr3+ tetranuclear ion-complex adduct

Zoli, L.; Cozzi, P.Giorgio., 2009:
Electrophilic activation of aldehydes "on water": a facile route to dipyrromethanes

Chianese, A.R.; Lee, S.J.; Gagné, M.R., 2007:
Electrophilic activation of alkenes by platinum(II): so much more than a slow version of palladium(II)

Cañeque, T.; Truscott, F.M.; Rodriguez, R.; Maestri, G.; Malacria, M., 2014:
Electrophilic activation of allenenes and allenynes: analogies and differences between Brønsted and Lewis acid activation

Cvengros, Ján.; Schütte, J.; Schlörer, N.; Neudörfl, Jörg.; Schmalz, H-Günther., 2009:
Electrophilic activation of benzaldehydes through ortho palladation: one-pot synthesis of 3-methylene-indan-1-ols through a domino allylstannylation/Heck reaction under neutral conditions

Ma, S., 2009:
Electrophilic addition and cyclization reactions of allenes

Lee, P-Ryul.; Lee, C-Woo.; Kim, J-Ki.; Moon, E-Seong.; Kang, H., 2010:
Electrophilic addition reaction of ethene with hydrogen chloride on cold molecular films: evidence of ethyl cationic intermediate

Viquez, O.M.; Caito, S.W.; McDonald, W.Hayes.; Friedman, D.B.; Valentine, W.M., 2013:
Electrophilic adduction of ubiquitin activating enzyme E1 by N,N-diethyldithiocarbamate inhibits ubiquitin activation and is accompanied by striatal injury in the rat

Holm, L.; Moody, P.; Howarth, M., 2009:
Electrophilic affibodies forming covalent bonds to protein targets

Aitken, R.John.; Whiting, S.; De Iuliis, G.N.; McClymont, S.; Mitchell, L.A.; Baker, M.A., 2012:
Electrophilic aldehydes generated by sperm metabolism activate mitochondrial reactive oxygen species generation and apoptosis by targeting succinate dehydrogenase

Laub, H.A.; Mayr, H., 2013:
Electrophilic alkylations of vinylsilanes: a comparison of α- and β-silyl effects

Utaka, A.; Cavalcanti, L.N.; Silva, L.F., 2014:
Electrophilic alkynylation of ketones using hypervalent iodine

Brand, J.P.; Waser, Jérôme., 2012:
Electrophilic alkynylation: the dark side of acetylene chemistry

Ueberbacher, B.T.; Hall, Mélanie.; Faber, K., 2012:
Electrophilic and nucleophilic enzymatic cascade reactions in biosynthesis

Ajiboye, T.O.; Yakubu, M.T.; Oladiji, A.T., 2014:
Electrophilic and reactive oxygen species detoxification potentials of chalcone dimers is mediated by redox transcription factor Nrf-2

Garcia-Bosch, I.; Ribas, X.; Costas, M., 2012:
Electrophilic arene hydroxylation and phenol O-H oxidations performed by an unsymmetric μ-η(1):η(1)-O2-peroxo dicopper(II) complex

Kodet, J.G.; Topczewski, J.J.; Gardner, K.D.; Wiemer, D.F., 2014:
Electrophilic aromatic prenylation via cascade cyclization

Abdo, M.; Zhang, Y.; Schramm, V.L.; Knapp, S., 2010:
Electrophilic aromatic selenylation: new OPRT inhibitors

Yao, S.; Zhang, X.; Zhou, J.; Qian, R.; Xu, Z.; Fang, F.; Wei, Y.; Wang, C.; Yuan, S.; Guo, Y., 2008:
Electrophilic aromatic substitution and single-electron transfer (SET) by the phenylium ion in the gas phase: characterization of a long-lived SET intermediate

Abbey, E.R.; Zakharov, L.N.; Liu, S-Yuan., 2011:
Electrophilic aromatic substitution of a BN indole

Schnatter, W.F.K.; Rogers, D.W.; Zavitsas, A.A., 2013:
Electrophilic aromatic substitution: enthalpies of hydrogenation of the ring determine reactivities of C6H5X. The direction of the C6H5-X bond dipole determines orientation of the substitution

Xu, X.F.; Zilberg, S.; Haas, Y., 2010:
Electrophilic aromatic substitution: the role of electronically excited states

Berionni, G.; Morozova, V.; Heininger, M.; Mayer, P.; Knochel, P.; Mayr, H., 2013:
Electrophilic aromatic substitutions of aryltrifluoroborates with retention of the BF3- group: quantification of the activating and directing effects of the trifluoroborate group

Koleva, G.; Galabov, B.; Kong, J.; Schaefer, H.F.; Schleyer, P.von.R., 2012:
Electrophilic aromatic sulfonation with SO3: concerted or classic S(E)Ar mechanism?

Corona-Martínez, D.Octavio.; Gomez-Tagle, P.; Yatsimirsky, A.K., 2013:
Electrophilic assistance to the cleavage of an RNA model phopshodiester via specific and general base-catalyzed mechanisms

Caballo, J.; González-Moreiras, M.; Mena, M.; Pérez-Redondo, Aán.; Yélamos, C., 2012:
Electrophilic attack on trinuclear titanium imido-nitrido systems

Eissen, M.; Lenoir, D., 2008:
Electrophilic bromination of alkenes: environmental, health and safety aspects of new alternative methods

McAllister, L.J.; Bruce, D.W.; Karadakov, P.B., 2014:
Electrophilic bromination of substituted stilbenes and stilbazoles: a quantum-chemical investigation

Zhu, H-Tao.; Ji, K-Gong.; Yang, F.; Wang, L-Jing.; Zhao, S-Chun.; Ali, S.; Liu, X-Yuan.; Liang, Y-Min., 2011:
Electrophilic carbocyclization of aryl propargylic alcohols: a facile synthesis of diiodinated carbocycles and heterocycles

Yang, F.; Ji, K-Gong.; Zhu, H-Tao.; Shaukat, A.; Liu, X-Yuan.; Liang, Y-Min., 2011:
Electrophilic carbocyclization of hydroxylated enynes

Aridoss, G.; Sarca, V.D.; Ponder, J.F.; Crowe, J.; Laali, K.K., 2011:
Electrophilic chemistry of propargylic alcohols in imidazolium ionic liquids: propargylation of arenes and synthesis of propargylic ethers catalyzed by metallic triflates [Bi(OTf)3, Sc(OTf)3, Yb(OTf)3], TfOH, or B(C6F5)3

Deering-Rice, C.E.; Romero, E.G.; Shapiro, D.; Hughen, R.W.; Light, A.R.; Yost, G.S.; Veranth, J.M.; Reilly, C.A., 2011:
Electrophilic components of diesel exhaust particles (DEP) activate transient receptor potential ankyrin-1 (TRPA1): a probable mechanism of acute pulmonary toxicity for DEP

Houk, R.J.T.; Monzingo, A.; Anslyn, E.V., 2008:
Electrophilic coordination catalysis: a summary of previous thought and a new angle of analysis

Alves, D.; Luchese, C.; Nogueira, C.W.; Zeni, G., 2007:
Electrophilic cyclization of (Z)-selenoenynes: synthesis and reactivity of 3-iodoselenophenes

Crone, B.; Kirsch, S.F.; Umland, K-Daniel., 2010:
Electrophilic cyclization of 1,5-enynes

Manarin, Fávia.; Roehrs, J.A.; Gay, R.Mozzaquatro.; Brandão, R.; Menezes, P.H.; Nogueira, C.W.; Zeni, G., 2010:
Electrophilic cyclization of 2-chalcogenealkynylanisoles: versatile access to 2-chalcogen-benzo[b]furans

Danilkina, N.A.; Kulyashova, A.E.; Khlebnikov, A.F.; Bräse, S.; Balova, I.A., 2015:
Electrophilic cyclization of aryldiacetylenes in the synthesis of functionalized enediynes fused to a heterocyclic core

Wang, M.; Li, J.; Fu, C.; Ma, S., 2014:
Electrophilic cyclizations of diaryl-2,3-allenyl ethers with N-bromosuccinimide: en route to 2-bromonaphthalenes

Musiek, E.S.; McLaughlin, B.; Morrow, J.D., 2007:
Electrophilic cyclopentenone isoprostanes in neurodegeneration

Musiek, E.S.; Brooks, J.D.; Joo, M.; Brunoldi, E.; Porta, A.; Zanoni, G.; Vidari, G.; Blackwell, T.S.; Montine, T.J.; Milne, G.L.; McLaughlin, B.; Morrow, J.D., 2008:
Electrophilic cyclopentenone neuroprostanes are anti-inflammatory mediators formed from the peroxidation of the omega-3 polyunsaturated fatty acid docosahexaenoic acid

Sans, A.; Gago, R.; Mingot, A.; García, W.; Bosch, D.; Coll, J.; Rosell, G.; Bosch, M.Pilar.; Riba, Mí.; Guerrero, A., 2014:
Electrophilic derivatives antagonise pheromone attraction in Cydia pomonella

Betterley, N.M.; Surawatanawong, P.; Prabpai, S.; Kongsaeree, P.; Kuhakarn, C.; Pohmakotr, M.; Reutrakul, V., 2014:
Electrophilic difluoro(phenylthio)methylation: generation, stability, and reactivity of α-fluorocarbocations

Pérez-Sala, D., 2011:
Electrophilic eicosanoids: Signaling and targets

Awwad, K.; Steinbrink, S.D.; Frömel, T.; Lill, N.; Isaak, J.; Häfner, A-Kathrin.; Roos, J.; Hofmann, B.; Heide, H.; Geisslinger, G.; Steinhilber, D.; Freeman, B.A.; Maier, T.J.; Fleming, I., 2014:
Electrophilic fatty acid species inhibit 5-lipoxygenase and attenuate sepsis-induced pulmonary inflammation

Bonacci, G.; Schopfer, F.J.; Batthyany, C.I.; Rudolph, T.K.; Rudolph, V.; Khoo, N.K.H.; Kelley, E.E.; Freeman, B.A., 2011:
Electrophilic fatty acids regulate matrix metalloproteinase activity and expression

Zhao, S-Bin.; Wang, R-Yao.; Nguyen, H.; Becker, J.J.; Gagné, M.R., 2012:
Electrophilic fluorination of cationic Pt-aryl complexes

Dubinsky-Davidchik, I.S.; Potash, S.; Goldberg, I.; Vigalok, A.; Vedernikov, A.N., 2012 :
Electrophilic fluorination of organoplatinum(II) iodides: iodine and platinum atoms as competing fluorination sites

Geary, G.C.; Hope, E.G.; Singh, K.; Stuart, A.M., 2013:
Electrophilic fluorination using a hypervalent iodine reagent derived from fluoride

Hao, F.; Jiang, H-Wei.; Zong, G.; Zhou, Z.; Du, R-Bing.; Chen, Q-Yun.; Xiao, J-Chang., 2012:
Electrophilic fluoroalkylation of Ni(II) N-confused porphyrins with fluoroalkylarylsulfonium salts

Wilkinson, S.C.; Lozano, O.; Schuler, M.; Pacheco, M.C.; Salmon, R.; Gouverneur, Véronique., 2009:
Electrophilic fluorocyclization of allyl silanes

Miller, R.M.; Paavilainen, V.O.; Krishnan, S.; Serafimova, I.M.; Taunton, J., 2013:
Electrophilic fragment-based design of reversible covalent kinase inhibitors

Stewart, M.A.; Moore, C.E.; Ditri, T.B.; Labios, L.A.; Rheingold, A.L.; Figueroa, J.S., 2011:
Electrophilic functionalization of well-behaved manganese monoanions supported by m-terphenyl isocyanides

Tsuji, N.; Kobayashi, Y.; Takemoto, Y., 2015:
Electrophilic iodine(I) compounds induced semipinacol rearrangement via C-X bond cleavage

Tang, B-Xiao.; Yin, Q.; Tang, R-Yuan.; Li, J-Heng., 2008:
Electrophilic ipso-cyclization of N-(p-methoxyaryl)propiolamides involving an electrophile-exchange process

Yu, Q-Fu.; Zhang, Y-Hua.; Yin, Q.; Tang, B-Xiao.; Tang, R-Yuan.; Zhong, P.; Li, J-Heng., 2008:
Electrophilic ipso-iodocyclization of N-(4-methylphenyl)propiolamides: selective synthesis of 8-methyleneazaspiro[4,5]trienes

Wang, L-Jing.; Zhu, H-Tao.; Qiu, Y-Feng.; Liu, X-Yuan.; Liang, Y-Min., 2013 :
Electrophilic ipso-iodocyclization of N-benzyl-N-(1-naphthyl)propiolamides: synthesis of complex polycyclic lactams

Paakinaho, V.; Kaikkonen, S.; Levonen, A-Liisa.; Palvimo, J.J., 2015:
Electrophilic lipid mediator 15-deoxy-Δ12,14-prostaglandin j2 modifies glucocorticoid signaling via receptor SUMOylation

Yemets, S.V.; Shubina, T.E.; Krasutsky, P.A., 2014:
Electrophilic monoiodination of terminal alkenes

Gersch, M.; Kreuzer, J.; Sieber, S.A., 2012:
Electrophilic natural products and their biological targets

Kansanen, E.; Bonacci, G.; Schopfer, F.J.; Kuosmanen, S.M.; Tong, K.I.; Leinonen, H.; Woodcock, S.R.; Yamamoto, M.; Carlberg, C.; Ylä-Herttuala, S.; Freeman, B.A.; Levonen, A-Liisa., 2011:
Electrophilic nitro-fatty acids activate NRF2 by a KEAP1 cysteine 151-independent mechanism

Khoo, N.K.H.; Freeman, B.A., 2010:
Electrophilic nitro-fatty acids: anti-inflammatory mediators in the vascular compartment

Ferguson, H.E.; Kulkarni, A.; Lehmann, G.M.; Garcia-Bates, T.M.; Thatcher, T.H.; Huxlin, K.R.; Phipps, R.P.; Sime, P.J., 2009:
Electrophilic peroxisome proliferator-activated receptor-gamma ligands have potent antifibrotic effects in human lung fibroblasts

Enoch, S.J.; Roberts, D.W.; Cronin, M.T.D., 2010:
Electrophilic reaction chemistry of low molecular weight respiratory sensitizers

Jiang, H-Wei.; Hao, F.; Chen, Q-Yun.; Xiao, J-Chang.; Liu, S-Bin.; Gu, Y-Cheng., 2010:
Electrophilic reaction of Ag(III) N-confused porphyrin with alcohols

Lenz, R.W., 1976:
Electrophilic reactions

Kanzian, T.; Nicolini, S.; De Crescentini, L.; Attanasi, O.A.; Ofial, A.R.; Mayr, H., 2010:
Electrophilic reactivities of 1,2-diaza-1,3-dienes

Lakhdar, S.; Tokuyasu, T.; Mayr, H., 2008:
Electrophilic reactivities of alpha,beta-unsaturated iminium ions

Kanzian, T.; Mayr, H., 2010:
Electrophilic reactivities of azodicarboxylates

Roberts, D.W.; Aptula, A.O., 2014:
Electrophilic reactivity and skin sensitization potency of SNAr electrophiles

Ferreira, Jé.A.B.; Sánchez-Coronilla, A.; Togashi, D.M.; Ferreira, H.; Ascenso, Jé.R.; Costa, Sílvia.M.B., 2013:
Electrophilic reactivity of tetrabromorhodamine 123 is bromine induced: convergent interpretation through complementary molecular descriptors

Peng, B.; Geerdink, D.; Maulide, N., 2013:
Electrophilic rearrangements of chiral amides: a traceless asymmetric α-allylation

Yi, X-Yi.; Lam, T.C.H.; Sau, Y-Keung.; Zhang, Q-Feng.; Williams, I.D.; Leung, W-Hung., 2007:
Electrophilic ruthenium(VI) nitrido complex containing Kläui's oxygen tripodal ligand

Oehlke, A.; Auer, A.A.; Schreiter, K.; Hofmann, K.; Riedel, F.; Spange, S., 2009:
Electrophilic substituent constant sigma(+) of electron donor substituents in nonpolar media

Anusiewicz, I., 2009:
Electrophilic substituents as ligands in superhalogen anions

Frank, Ré.; Grell, T.; Hiller, M.; Hey-Hawkins, E., 2012:
Electrophilic substitution of the nido-dicarbaborate anion 7,8-nido-C2B9H12- with sulfenyl chlorides

Hung, W.Yiu.; Liu, B.; Shou, W.; Wen, T.Bin.; Shi, C.; Sung, H.H-Y.; Williams, I.D.; Lin, Z.; Jia, G., 2012:
Electrophilic substitution reactions of metallabenzynes

Terzić, V.; Padovani, D.; Balland, V.; Artaud, I.; Galardon, E., 2015:
Electrophilic sulfhydration of 8-nitro-cGMP involves sulfane sulfur

Takeda, T.; Inukai, K.; Tahara, K.; Tobe, Y., 2011:
Electrophilic transannular cyclization of octadehydrodibenzo[12]annulene reexamined: indication of the formation of both anti- and syn-indenofluorenes

Baert, Fçois.; Colomb, J.; Billard, T., 2013:
Electrophilic trifluoromethanesulfanylation of organometallic species with trifluoromethanesulfanamides

Janson, Pär.G.; Ghoneim, I.; Ilchenko, N.O.; Szabó, Kálmán.J., 2012:
Electrophilic trifluoromethylation by copper-catalyzed addition of CF3-transfer reagents to alkenes and alkynes

Charpentier, J.; Früh, N.; Togni, A., 2014:
Electrophilic trifluoromethylation by use of hypervalent iodine reagents

Santschi, N.; Togni, A., 2011:
Electrophilic trifluoromethylation of S-hydrogen phosphorothioates

Liu, J.; Chu, L.; Qing, F-Ling., 2013:
Electrophilic trifluoromethylthiolation of allylsilanes with trifluoromethanesulfanamide

Alazet, Sébastien.; Zimmer, L.; Billard, T., 2014:
Electrophilic trifluoromethylthiolation of carbonyl compounds

Ahn, Y-Hoon.; Hwang, Y.; Liu, H.; Wang, X.Jun.; Zhang, Y.; Stephenson, K.K.; Boronina, T.N.; Cole, R.N.; Dinkova-Kostova, A.T.; Talalay, P.; Cole, P.A., 2010:
Electrophilic tuning of the chemoprotective natural product sulforaphane

Cocco, M.; Garella, D.; Di Stilo, A.; Borretto, E.; Stevanato, L.; Giorgis, M.; Marini, E.; Fantozzi, R.; Miglio, G.; Bertinaria, M., 2015:
Electrophilic warhead-based design of compounds preventing NLRP3 inflammasome-dependent pyroptosis

Sandoval, D.; Frazier, C.P.; Bugarin, A.; Read de Alaniz, J., 2013:
Electrophilic α-amination reaction of β-ketoesters using N-hydroxycarbamates: merging aerobic oxidation and Lewis acid catalysis

Duan, X-Hua.; Mayr, H., 2010:
Electrophilicities of alpha-chlorinating agents used in organocatalysis

Appel, R.; Chelli, S.; Tokuyasu, T.; Troshin, K.; Mayr, H., 2013:
Electrophilicities of benzaldehyde-derived iminium ions: quantification of the electrophilic activation of aldehydes by iminium formation

Asahara, H.; Mayr, H., 2012:
Electrophilicities of bissulfonyl ethylenes

Troshin, K.; Schindele, C.; Mayr, H., 2011:
Electrophilicities of symmetrically substituted 1,3-diarylallyl cations

Zenz, I.; Mayr, H., 2011:
Electrophilicities of trans-β-nitrostyrenes

De Vleeschouwer, F.; Van Speybroeck, V.; Waroquier, M.; Geerlings, P.; De Proft, F., 2007:
Electrophilicity and nucleophilicity index for radicals

Pratihar, S., 2014:
Electrophilicity and nucleophilicity of commonly used aldehydes

Seeliger, F.; Berger, S.T.A.; Remennikov, G.Y.; Polborn, K.; Mayr, H., 2007:
Electrophilicity of 5-benzylidene-1,3-dimethylbarbituric and -thiobarbituric acids

El Guesmi, N.; Boubaker, T.; Goumont, Régis.; Terrier, Fçois., 2008:
Electrophilicity of aromatic triflones in sigma-complexation processes

Sinha, S.; Ahire, D.; Wagh, S.; Mullick, D.; Sistla, R.; Selvakumar, K.; Cortes, J.Caceres.; Putlur, S.Prasad.; Mandlekar, S.; Johnson, B.M., 2015:
Electrophilicity of pyridazine-3-carbonitrile, pyrimidine-2-carbonitrile, and pyridine-carbonitrile derivatives: a chemical model to describe the formation of thiazoline derivatives in human liver microsomes

He, W.; Xie, L.; Xu, Y.; Xiang, J.; Zhang, L., 2012:
Electrophilicity of α-oxo gold carbene intermediates: halogen abstractions from halogenated solvents leading to the formation of chloro/bromomethyl ketones

Berger, S.T.A.; Seeliger, F.H.; Hofbauer, F.; Mayr, H., 2007:
Electrophilicity parameters for 2-benzylidene-indan-1,3-diones--a systematic extension of the benzhydrylium based electrophilicity scale

Kaumanns, O.; Mayr, H., 2008:
Electrophilicity parameters of 5-benzylidene-2,2-dimethyl[1,3]dioxane-4,6-diones (benzylidene Meldrum's acids)

Horn, M.; Mayr, H., 2010:
Electrophilicity versus electrofugality of tritylium ions in aqueous acetonitrile

Bandini, M., 2013:
Electrophilicity: the "dark-side" of indole chemistry

Dondelinger, R.M., 2010:
Electrophoresis

Landsteiner, K.; Longsworth, L.G.; van der Scheer, J., 1938:
Electrophoresis Experiments with Egg Albumins and Hemoglobins

Winslow, C.E.; Falk, I.S.; Caulfield, M.F., 1923:
Electrophoresis of Bacteria as Influenced by Hydrogen Ion Concentration and the Presence of Sodium and Calcium Salts

Tiselius, A.; Kabat, E.A., 1938:
Electrophoresis of Immune Serum

Herriott, R.M.; Desreux, V.; Northrop, J.H., 1940:
Electrophoresis of Pepsin

Tiselius, A., 1937:
Electrophoresis of Purified Antibody Preparations

Moyer, L.S., 1935:
Electrophoresis of Sterols : Ii. Ergosterol

Moyer, L.S., 1935:
Electrophoresis of Sterols : Iii. Further Investigations of Cholesterol Surfaces

Ahualli, S.; Ballauff, M.; Arroyo, F.J.; Delgado, Ángel.V.; Jiménez, Mía.L., 2012:
Electrophoresis and dielectric dispersion of spherical polyelectrolyte brushes

Shen, Y.; Tu, J-sheng.; Pang, H.; Zhu, J-bi., 2010:
Electrophoresis and fluorospectrophotometry methods to determine the content and entrapment efficiency of siRNA in cationic liposomes

Issaq, H.J.; Blonder, J., 2009:
Electrophoresis and liquid chromatography/tandem mass spectrometry in disease biomarker discovery

Cordeiro, I.B.; Castro, D.P.; Nogueira, P.P.O.; Angelo, P.C.S.; Nogueira, P.A.; Gonçalves, J.F.C.; Pereira, A.M.R.F.; Garcia, J.S.; Souza, G.H.M.F.; Arruda, M.A.Z.; Eberlin, M.N.; Astolfi-Filho, S.; Andrade, E.V.; López-Lozano, J.L., 2015:
Electrophoresis and spectrometric analyses of adaptation-related proteins in thermally stressed Chromobacterium violaceum

Felix, C.; Yaroshchuk, A.; Pasupathi, S.; Pollet, B.G.; Bondarenko, M.P.; Kovalchuk, V.I.; Zholkovskiy, E.K., 2015:
Electrophoresis and stability of nano-colloids: history, theory and experimental examples

Jiang, Y.; Zheng, B.; Du, J.; Liu, G.; Guo, Y.; Xiao, D., 2013:
Electrophoresis deposition of Ag nanoparticles on TiO₂ nanotube arrays electrode for hydrogen peroxide sensing

Volpi, N.; Maccari, F.; Suwan, J.; Linhardt, R.J., 2012:
Electrophoresis for the analysis of heparin purity and quality

Groenewold, J.; Zhang, T.; Kegel, W.K., 2011:
Electrophoresis in charge-stabilized colloidal cluster phases

Westermeier, R., 2011:
Electrophoresis in gels

Hu, Z.; Jiang, J., 2008:
Electrophoresis in protein crystal: nonequilibrium molecular dynamics simulations

Barany, S., 2008:
Electrophoresis in strong electric fields

Ohlsson, P.D.; Ordeig, O.; Mogensen, K.B.; Kutter, Jörg.P., 2010:
Electrophoresis microchip with integrated waveguides for simultaneous native UV fluorescence and absorbance detection

Stellwagen, N.C., 2009 :
Electrophoresis of DNA in agarose gels, polyacrylamide gels and in free solution

McGookin, R., 1988:
Electrophoresis of DNA in nondenaturing polyacrylamide gels

Simpson, R.J., 2006:
Electrophoresis of Peptides (Tricine-SDS-PAGE)

Thurston, C.F.; Perry, C.R.; Pollard, J.W., 1988:
Electrophoresis of RNA denatured with glyoxal or formaldehyde

Rowghanian, P.; Grosberg, A.Y., 2014:
Electrophoresis of a DNA coil near a nanopore

Zhang, X.; Hsu, J-Ping.; Chen, Z-Syun.; Yeh, L-Hsien.; Ku, M-Hong.; Tseng, S., 2010:
Electrophoresis of a charge-regulated soft sphere in a charged cylindrical pore

Tseng, S.; Hsieh, T-Hsien.; Yeh, L-Hsien.; Wang, N.; Hsu, J-Ping., 2013:
Electrophoresis of a charge-regulated soft sphere: importance of effective membrane charge

Hsu, J.P.; Chen, C.Y.; Lee, D-Jong.; Tseng, S.; Su, A., 2008:
Electrophoresis of a charge-regulated sphere at an arbitrary position in a charged spherical cavity

Hsu, J-Ping.; Tai, Y-Hsuan.; Yeh, L-Hsien.; Tseng, S., 2011:
Electrophoresis of a charge-regulated sphere in a narrow cylindrical pore filled with multiple ionic species

Tsai, P.; Fang, H.; Lee, E., 2011:
Electrophoresis of a charge-regulated sphere normal to an air-water interface

Hsu, C.; Lo, T-Wen.; Lee, D-Jong.; Hsu, J-Ping., 2013:
Electrophoresis of a charge-regulated zwitterionic particle: influence of temperature and bulk salt concentration

Tsai, P.; Huang, C-Hsuan.; Lee, E., 2011:
Electrophoresis of a charged colloidal particle in porous media: boundary effect of a solid plane

Im, D.Jin.; Noh, J.; Moon, D.; Kang, I.Seok., 2011:
Electrophoresis of a charged droplet in a dielectric liquid for droplet actuation

Hsu, H-Pei.; Lee, E., 2013:
Electrophoresis of a charged porous sphere normal to an air-water interface

Chen, W.J.; Keh, H.J., 2013:
Electrophoresis of a charged soft particle in a charged cavity with arbitrary double-layer thickness

Keh, H.J.; Hsieh, T.H., 2007:
Electrophoresis of a colloidal sphere in a spherical cavity with arbitrary zeta potential distributions

Keh, H.J.; Hsieh, T.H., 2007:
Electrophoresis of a colloidal sphere in a spherical cavity with arbitrary zeta potential distributions and arbitrary double-layer thickness

Wang, N.; Yee, C-Pai.; Chen, Y-Yen.; Hsu, J-Ping.; Tseng, S., 2014:
Electrophoresis of a pH-regulated zwitterionic nanoparticle in a pH-regulated zwitterionic capillary

Hsu, J-Ping.; Huang, H-Ting.; Yeh, L-Hsien.; Tseng, S., 2012:
Electrophoresis of a particle at an arbitrary surface potential and double layer thickness: importance of nonuniformly charged conditions

Hsu, J-Ping.; Yeh, L-Hsien.; Yeh, S-Jen., 2007:
Electrophoresis of a rigid sphere in a Carreau fluid normal to a large charged disk

Hsu, H-Pei.; Lee, E., 2012:
Electrophoresis of a single charged porous sphere in an infinite medium of electrolyte solution

Cheng, W-Li.; He, Y-Ying.; Lee, E., 2009:
Electrophoresis of a soft particle normal to a plane

Huang, C-Hsuan.; Cheng, W-Li.; He, Y-Ying.; Lee, E., 2010:
Electrophoresis of a soft particle within a cylindrical pore: polarization effect with the nonlinear Poisson-Boltzmann equation

Tseng, S.; Hsu, J-Ping.; Lo, H-Ming.; Yeh, L-Hsien., 2014:
Electrophoresis of a soft sphere in a necked cylindrical nanopore

Hsu, J-Ping.; Chou, C-Hao.; Kuo, C-Chung.; Tseng, S.; Wu, R.M., 2012:
Electrophoresis of a soft toroid of nonuniform structure

Hsu, J-Ping.; Chen, Z-Syun., 2007:
Electrophoresis of a sphere along the axis of a cylindrical pore: effects of double-layer polarization and electroosmotic flow

Tsai, P.; Lou, J.; He, Y-Ying.; Lee, E., 2011:
Electrophoresis of a spherical particle normal to an air-water interface

Hsu, J-Ping.; Chou, C-Hao.; Kuo, C-Chung.; Tseng, S.; Wu, R.M., 2011:
Electrophoresis of an arbitrarily oriented toroid in an unbounded electrolyte solution

Tseng, S.; Cho, C-Hua.; Chen, Z-Syun.; Hsu, J-Ping., 2008:
Electrophoresis of an ellipsoid along the axis of a cylindrical pore: effect of a charged boundary

Cowdrey, G.; Firth, M.; Firth, G., 1999:
Electrophoresis of cerebrospinal fluid

Charlwood, P.A., 1948:
Electrophoresis of collagenase preparations

Lobaskin, V.; Dünweg, B.; Medebach, M.; Palberg, T.; Holm, C., 2007:
Electrophoresis of colloidal dispersions in the low-salt regime

Vissers, T.; Imhof, A.; Carrique, Félix.; Delgado, Ángel.V.; van Blaaderen, A., 2011:
Electrophoresis of concentrated colloidal dispersions in low-polar solvents

Tseng, S.; Lin, C-Yuan.; Hsu, J-Ping.; Yeh, L-Hsien., 2013:
Electrophoresis of deformable polyelectrolytes in a nanofluidic channel

Lau, H.W.; Archer, L.A., 2010:
Electrophoresis of end-labeled DNA: theory and experiment

Buitenhuis, J., 2013:
Electrophoresis of fd-virus particles: experiments and an analysis of the effect of finite rod lengths

Kuo, Y-Chih.; Wang, C-Chin., 2010:
Electrophoresis of human brain microvascular endothelial cells with uptake of cationic solid lipid nanoparticles: effect of surfactant composition

Knecht, V.; Levine, Z.A.; Vernier, P.Thomas., 2011:
Electrophoresis of neutral oil in water

Chen, Y-Yen.; Hsu, J-Ping.; Tseng, S., 2015:
Electrophoresis of pH-regulated, zwitterionic particles: effect of self-induced nonuniform surface charge

Aitzetmuller, K.; Buchtela, K.; Grass, F., 2013:
Electrophoresis of radionuclides on cellogel

Wu, M-Sung.; Zheng, Y-Jun., 2012:
Electrophoresis of randomly and vertically embedded graphene nanosheets in activated carbon film as a counter electrode for dye-sensitized solar cells

Aitzetmüller, K.; Buchtela, K.; Grass, F.; Hecht, F., 2013:
Electrophoresis of rare earth elements on cellulose acetate

Li, C.H.; Reinhardt, W.O., 2011:
Electrophoresis of rat plasma; the effect of adrenocorticotropic hormone

Dukhin, S.S.; Zimmermann, R.; Werner, C., 2007:
Electrophoresis of soft particles at high electrolyte concentrations: an interpretation by the Henry theory

Allison, S.A.; Xin, Y.; Pei, H., 2007:
Electrophoresis of spheres with uniform zeta potential in a gel modeled as an effective medium

Payne, C.M.; Zhao, X.; Cummings, P.T., 2008:
Electrophoresis of ssDNA through nanoelectrode gaps from molecular dynamics: impact of gap width and chain length

Harper, J.F., 2010:
Electrophoresis of surfactant-free bubbles

Chiva, A., 2012:
Electrophoresis of tear proteins as a new diagnostic tool for two high risk groups for dry eye: computer users and contact lens wearers

Musaev, A.V.; Balakishieva, F.K., 2010:
Electrophoresis of vasoactive drugs in the treatment and rehabilitation of patients with cerebral ischemic diseases

Pielesz, A., 2010 :
Electrophoresis on a cellulose acetate CAE in a study of commercial active alginate dressings

Matsuno, Y-Ki.; Kakoi, N.; Kinoshita, M.; Matsuzaki, Y.; Kumada, J-Ichi.; Kakehi, K., 2008:
Electrophoresis studies on the contaminating glycosaminoglycans in commercially available hyaluronic acid products

Rodriguez-Santiago, V.; Fedkin, M.V.; Lvov, S.N., 2008:
Electrophoresis system for high temperature mobility measurements of nanosize particles

Klepárník, K.; Bocek, P., 2010:
Electrophoresis today and tomorrow: Helping biologists' dreams come true

Grigorian, E.G.; Malerian, D.S.; Seropian, N.S.; Sarkisian, R.A.; Iskandarian, V.A.; Khachatrian, K.K.; Avetisian, K.G., 2009:
Electrophoresis with the mulberry leave extract and officinal peat for the rehabilitative treatment of chronic non-calculous cholecystitis

Ionescu-Zanetti, C.; Blatz, A.; Khine, M., 2007:
Electrophoresis-assisted single-cell electroporation for efficient intracellular delivery

Shu, L.; Zhu, J.; Wang, Q.; He, P.; Fang, Y., 2015:
Electrophoresis-chemiluminescence detection of phenols catalyzed by hemin

Wu, J-Chuang.; Chen, C-Hung.; Fu, J-Wei.; Yang, H-Ching., 2015:
Electrophoresis-enhanced detection of deoxyribonucleic acids on a membrane-based lateral flow strip using avian influenza H5 genetic sequence as the model

El Rassi, Z., 2008:
Electrophoresis. Issues with Emphasis Section

LE, T-Truc.; Bilal, M.; Gou, E.W.; Parupudi, S., 2018:
Capsule endoscopic appearance of a Meckel's diverticulum in an adult

VAN DER Scheer, J.; Wyckoff, R.W., 1940:
Electrophoretic Analyses of Hyperimmune Sera

Tiselius, A., 1940:
Electrophoretic Analysis and the Constitution of Native Fluids: Harvey Lecture, October 19, 1939

Steers, E., 1961:
Electrophoretic Analysis of Immobilization Antigens of Paramecium aurelia

Kumar, A.; Srivastava, N.C.; Singh, V.P.; Sunder, J., 2014:
Electrophoretic Analysis of Indian Isolates of Mycoplasma agalactiae and Mycoplasma bovis by SDS-PAGE and Immunoblotting

Glaeser, R.M.; Mel, H.C., 2014:
Electrophoretic Behavior of Oso4-Fixed and Kmno4-Fixed Rat Erythrocytes. Ucrl-11184

Lalwani, S.; Venditto, V.J.; Chouai, A.; Rivera, G.E.; Shaunak, S.; Simanek, E.E., 2009:
Electrophoretic Behavior of Anionic Triazine and PAMAM Dendrimers: Methods for Improving Resolution and Assessing Purity Using Capillary Electrophoresis

Park, J.Eun.; Park, I.Song.; Bae, T.Sung.; Lee, M.Ho., 2014:
Electrophoretic Deposition of Carbon Nanotubes over TiO2 Nanotubes: Evaluation of Surface Properties and Biocompatibility

Smith, M.F.; Delbary-Gossart, S., 2001:
Electrophoretic Mobility Shift Assay (EMSA)

Wang, M.S.; Reed, S.M., 2011:
Electrophoretic Mobility of Lipoprotein Nanoparticle Mimics

Daryani, A.; Sharif, M.; Kalani, H.; Rafiei, A.; Kalani, F.; Ahmadpour, E., 2014 :
Electrophoretic Patterns of Toxoplasma gondii Excreted/Secreted Antigens and Their Role in Induction of the Humoral Immune Response

Falk, I.S.; Jacobson, M.A.; Jensen, L.B., 1926:
Electrophoretic Potential and the Virulence of Bacteria

Modarres, S.; Rahbarimanesh, A-Akbar.; Karimi, M.; Modarres, S.; Motamedi-Rad, M.; Sohrabi, A.; Nasiri-Oskoii, N., 2008:
Electrophoretic RNA genomic profiles of rotavirus strains prevailing among hospitalized children with acute gastroenteritis in tehran, iran

Johnson, V.L.; Dunlap, J.S., 1956:
Electrophoretic Separation of Hemoglobins from the Chicken

Rutstein, D.D.; Clarke, F.H.; Taran, L.M., 1945:
Electrophoretic Studies in Rheumatic Fever

Asoh, T-Aki.; Kikuchi, A., 2010:
Electrophoretic adhesion of stimuli-responsive hydrogels

Gjessing, E.C.; Chanutin, A., 2018:
Electrophoretic analyses of sera after treating dogs with beta-chloroethyl vesicants

Chanutin, A.; Gjessing, E.C., 2011:
Electrophoretic analyses of sera of injured dogs

Zhuang, Z.; Starkey, J.A.; Mechref, Y.; Novotny, M.V.; Jacobson, S.C., 2007:
Electrophoretic analysis of N-glycans on microfluidic devices

Ronda, L.; Pioselli, B.; Bruno, S.; Faggiano, S.; Mozzarelli, A., 2011:
Electrophoretic analysis of PEGylated hemoglobin-based blood substitutes

Zhou, L.; Glennon, J.D.; Luong, J.H.T., 2010:
Electrophoretic analysis of biomarkers using capillary modification with gold nanoparticles embedded in a polycation and boron doped diamond electrode

Hogness, K.R.; Giffee, J.W.; Koenig, V.L., 2011:
Electrophoretic analysis of bovine plasma and serum

Kawai, T.; Ito, J.; Sueyoshi, K.; Kitagawa, F.; Otsuka, K., 2013:
Electrophoretic analysis of cations using large-volume sample stacking with an electroosmotic flow pump using capillaries coated with neutral and cationic polymers

Cooper, G.R.; Rein, C.R.; Beard, J.W., 2011:
Electrophoretic analysis of kala-azar human serum; hypergammaglobulinemia associated with seronegative reactions for syphilis

Svartz, N.; Olhagen, B., 1948:
Electrophoretic analysis of protein in articular rheumatism

Dillon, M.L.; Cooper, G.R., 1948:
Electrophoretic analysis of serum from patients with pinta and yaws

Lagercrantz, C., 2011:
Electrophoretic analysis of serum in pregnancy and in pregnancy toxemia

Read, J.T., 1948:
Electrophoretic analysis of serum proteins in varied blood dyscrasias

Chourey, P.S., 1981:
Electrophoretic analysis of sucrose synthetase proteins in the complementing heterozygotes at the Shrunken locus in maize

Koenig, V.L.; Hogness, K.R., 2010:
Electrophoretic analysis of swine plasma and serum

Zischka, H.; Larochette, N.; Hoffmann, F.; Hamöller, D.; Jägemann, N.; Lichtmannegger, J.; Jennen, L.; Müller-Höcker, J.; Roggel, F.; Göttlicher, M.; Vollmar, A.M.; Kroemer, G., 2008:
Electrophoretic analysis of the mitochondrial outer membrane rupture induced by permeability transition

Lobkova, T.N., 2014:
Electrophoretic analysis of the proteins of the cerebrospinal fluid and blood serum in patients with tumors and inflammatory diseases of the brain

Emre, I.; Turgut-Balik, D.; Sahin, A., 2009:
Electrophoretic analysis of total protein profiles of some Lathyrus L. (Sect. Cicercula) grown in Turkey

Mayes, E.L., 1984:
Electrophoretic and chromatographic separation of peptides on paper

Mehrabi, R.; Taga, M.; Kema, G.H.J., 2008:
Electrophoretic and cytological karyotyping of the foliar wheat pathogen Mycosphaerella graminicola reveals many chromosomes with a large size range

Pysher, M.D.; Hayes, M.A., 2007:
Electrophoretic and dielectrophoretic field gradient technique for separating bioparticles

El Rassi, Z., 2010:
Electrophoretic and electrochromatographic separation of proteins in capillaries: an update covering 2007-2009

Kulish, I.S.; Kashkin, K.P., 2008:
Electrophoretic and immunochemical research of rat urine proteins in dynamics after intravenous injection of thorium dioxide (thorotrast)

Rokosz-Chudziak, N.; Rastawicki, W.; Zacharczuk, K.; Gierczyński, Rł., 2014:
Electrophoretic and immunological analysis of native proteins secreted in vitro under conditions inducing Ysa (Yersinia secretion apparatus) by clinical isolates of Yersinia enterocolitica 1B/O8 in Poland

McCARTHY, E.F.; KEKWICK, R.A., 1949:
Electrophoretic and ultracentrifugal examination of rabbit blastocyst fluid

Urban, P.L.; Goodall, D.M.; Bergström, E.T.; Bruce, N.C., 2007:
Electrophoretic assay for penicillinase: substrate specificity screening by parallel CE with an active pixel sensor

Su, Y.; Zhitomirsky, I., 2013:
Electrophoretic assembly of organic molecules and composites for electrochemical supercapacitors

Chetcuti Zammit, S.; Sanders, D.S.; Sidhu, R., 2018:
Capsule endoscopy for patients with coeliac disease

Szeberenyi, J., 2004:
Electrophoretic behavior of hemoglobin variants

Kokufuta, E.; Sato, S.; Kokufuta, M.K., 2013:
Electrophoretic behavior of microgel-immobilized polyions

Perlmann, G.E., 1948:
Electrophoretic behavior of modified ovalbumins

Hsu, J-Ping.; Ku, M-Hong.; Yang, L-Chia.; Lu, J-Nan.; Young, T-Horng.; Tseng, S., 2009:
Electrophoretic behaviors of human hepatoma HepG2 cells

Ananth, K.Prem.; Suganya, S.; Mangalaraj, D.; Ferreira, J.M.F.; Balamurugan, A., 2014:
Electrophoretic bilayer deposition of zirconia and reinforced bioglass system on Ti6Al4V for implant applications: an in vitro investigation

Niu, Z.; Du, J.; Cao, X.; Sun, Y.; Zhou, W.; Hng, H.Hoon.; Ma, J.; Chen, X.; Xie, S., 2013:
Electrophoretic build-up of alternately multilayered films and micropatterns based on graphene sheets and nanoparticles and their applications in flexible supercapacitors

Han, J-Hee.; Kim, H-Joo.; Sudheendra, L.; Hass, E.A.; Gee, S.J.; Hammock, B.D.; Kennedy, I.M., 2013:
Electrophoretic build-up of multi nanoparticle array for a highly sensitive immunoassay

Rowghanian, P.; Grosberg, A.Y., 2014:
Electrophoretic capture of a DNA chain into a nanopore

Yasukawa, T.; Nagamine, K.; Horiguchi, Y.; Shiku, H.; Koide, M.; Itayama, T.; Shiraishi, F.; Matsue, T., 2008:
Electrophoretic cell manipulation and electrochemical gene-function analysis based on a yeast two-hybrid system in a microfluidic device

Jameson, E.; Alvarez-Tostado, C.; Lew, W., 1948:
Electrophoretic changes in the blood serum proteins in the mothers and young of rats during pregnancy and lactation

Gjessing, E.C.; Chanutin, A., 2011:
Electrophoretic changes in the serum protein patterns of dogs subjected to various types of injury

Hlaváček, Aín.; Sedlmeier, A.; Skládal, P.; Gorris, H.H., 2015:
Electrophoretic characterization and purification of silica-coated photon-upconverting nanoparticles and their bioconjugates

López-Viota, Ján.; Mandal, S.; Delgado, A.V.; Toca-Herrera, Jé.Luis.; Möller, M.; Zanuttin, F.; Balestrino, M.; Krol, S., 2009:
Electrophoretic characterization of gold nanoparticles functionalized with human serum albumin (HSA) and creatine

Viota, Ján.L.; Rudzka, K.; Trueba, Ángel.; Torres-Aleman, I.; Delgado, Ángel.V., 2011:
Electrophoretic characterization of insulin growth factor (IGF-1) functionalized magnetic nanoparticles

Aranda, X.G.; Racho, R.G.; Pacheco-Rodríguez, G.; Alvarez-González, R., 2015:
Electrophoretic characterization of the Mammalian nuclear matrix proteome, nuclear envelope, nucleoli and covalently bound ADP-ribose polymers: potential applications to cancer

Sun, K.; Suzuki, N.; Li, Z.; Araki, R.; Ueno, K.; Juodkazis, S.; Abe, M.; Noji, S.; Misawa, H., 2008:
Electrophoretic chip for fractionation of selective DNA fragment

Chen, Q.; Cabanas-Polo, S.; Goudouri, O-Menti.; Boccaccini, A.R., 2015:
Electrophoretic co-deposition of polyvinyl alcohol (PVA) reinforced alginate-Bioglass® composite coating on stainless steel: mechanical properties and in-vitro bioactivity assessment

Cho, J.; Kumar, S.; Dorfman, K.D., 2010:
Electrophoretic collision of a DNA molecule with a small elliptical obstacle

Iso, Y.; Takeshita, S.; Isobe, T., 2014:
Electrophoretic deposition and characterization of transparent nanocomposite films of YVO4:Bi3+,Eu3+ nanophosphor and silicone-modified acrylic resin

Marín-Suárez, M.; Medina-Rodríguez, S.; Ergeneman, Oç.; Pané, S.; Fernández-Sánchez, J.F.; Nelson, B.J.; Fernández-Gutiérrez, A., 2013:
Electrophoretic deposition as a new approach to produce optical sensing films adaptable to microdevices

Nakamura, T.; Nishida, H.; Sekino, T.; Nawa, M.; Wakabayashi, K.; Kinuta, S.; Mutobe, Y.; Yatani, H., 2008:
Electrophoretic deposition behavior of ceria-stabilized zirconia/alumina powder

Song, K.W.; Costi, R.; Bulović, V., 2013:
Electrophoretic deposition of CdSe/ZnS quantum dots for light-emitting devices

Lin, C.; Han, H.; Zhang, F.; Li, A., 2007:
Electrophoretic deposition of HA/MWNTs composite coating for biomaterial applications

Wu, K.; Wang, Y.; Zhitomirsky, I., 2011:
Electrophoretic deposition of TiO2 and composite TiO2-MnO2 films using benzoic acid and phenolic molecules as charging additives

Sun, Y.; Ata, M.S.; Zhitomirsky, I., 2011:
Electrophoretic deposition of TiO2 nanoparticles using organic dyes

Borlaf, M.; Colomer, Mía.Teresa.; Cabello, Fátima.; Serna, R.; Moreno, R., 2012:
Electrophoretic deposition of TiO2/Er3+ nanoparticulate sols

Lommens, P.; Van Thourhout, D.; Smet, P.F.; Poelman, D.; Hens, Z., 2008:
Electrophoretic deposition of ZnO nanoparticles, from micropatterns to substrate coverage

Zhu, G.; Pan, L.; Sun, H.; Liu, X.; Lv, T.; Lu, T.; Yang, J.; Sun, Z., 2012:
Electrophoretic deposition of a reduced graphene-Au nanoparticle composite film as counter electrode for CdS quantum dot-sensitized solar cells

Aniket; El-Ghannam, A., 2012:
Electrophoretic deposition of bioactive silica-calcium phosphate nanocomposite on Ti-6Al-4V orthopedic implant

Seuss, S.; Boccaccini, A.R., 2014:
Electrophoretic deposition of biological macromolecules, drugs, and cells

Boccaccini, A.R.; Keim, S.; Ma, R.; Li, Y.; Zhitomirsky, I., 2011:
Electrophoretic deposition of biomaterials

Chen, Q.; de Larraya, U.Pérez.; Garmendia, N.; Lasheras-Zubiate, Mía.; Cordero-Arias, L.; Virtanen, S.; Boccaccini, A.R., 2015:
Electrophoretic deposition of cellulose nanocrystals (CNs) and CNs/alginate nanocomposite coatings and free standing membranes

Wang, Y.; Pang, X.; Zhitomirsky, I., 2011:
Electrophoretic deposition of chiral polymers and composites

Pishbin, F.; Mouriño, V.; Flor, S.; Kreppel, S.; Salih, V.; Ryan, M.P.; Boccaccini, A.R., 2015:
Electrophoretic deposition of gentamicin-loaded bioactive glass/chitosan composite coatings for orthopaedic implants

Pang, X.; Casagrande, T.; Zhitomirsky, I., 2008:
Electrophoretic deposition of hydroxyapatite-CaSiO3-chitosan composite coatings

Wang, Y.; Zhitomirsky, I., 2009:
Electrophoretic deposition of manganese dioxide-multiwalled carbon nanotube composites for electrochemical supercapacitors

Chen, H-Wei.; Liang, C-Peng.; Huang, H-Sheng.; Chen, J-Ging.; Vittal, R.; Lin, C-Yu.; Wu, K.C-W.; Ho, K-Chuan., 2011:
Electrophoretic deposition of mesoporous TiO2 nanoparticles consisting of primary anatase nanocrystallites on a plastic substrate for flexible dye-sensitized solar cells

Sharma, S.; Soni, V.P.; Bellare, J.R., 2008:
Electrophoretic deposition of nanobiocomposites for orthopedic applications: influence of current density and coating duration

Shrestha, N.K.; Kohn, H.; Imamura, M.; Irie, K.; Ogihara, H.; Saji, T., 2010:
Electrophoretic deposition of phthalocyanine in organic solutions containing trifluoroacetic acid

Garate, Jé-Antonio.; English, N.J.; Singh, A.; Ryan, K.M.; Mooney, D.A.; MacElroy, J.M.D., 2011:
Electrophoretic deposition of poly(3-decylthiophene) onto gold-mounted cadmium selenide nanorods

Wang, Y.; Deen, I.; Zhitomirsky, I., 2011:
Electrophoretic deposition of polyacrylic acid and composite films containing nanotubes and oxide particles

Zhang, W.; Chen, X.; Liao, X.; Huang, Z.; Dan, X.; Yin, G., 2012:
Electrophoretic deposition of porous CaO-MgO-SiO2 glass-ceramic coatings with B2O3 as additive on Ti-6Al-4V alloy

Xiao, X.Feng.; Liu, R.Fang.; Tang, X.Lian., 2007:
Electrophoretic deposition of silicon substituted hydroxyapatite coatings from n-butanol-chloroform mixture

Xiao, X.; Liu, R.; Tang, X., 2008:
Electrophoretic deposition of silicon-substituted hydroxyapatite/poly(epsilon-caprolactone) composite coatings

Tada, K., 2012:
Electrophoretic deposition of the thiophene-based copolymer and its composites with C60

Sullivan, K.T.; Zhu, C.; Tanaka, D.J.; Kuntz, J.D.; Duoss, E.B.; Gash, A.E., 2012:
Electrophoretic deposition of thermites onto micro-engineered electrodes prepared by direct-ink writing

Lin, J-Yu.; Chan, C-Yi.; Chou, S-Wei., 2013:
Electrophoretic deposition of transparent MoS2-graphene nanosheet composite films as counter electrodes in dye-sensitized solar cells

Verde, M.; Peiteado, M.; Caballero, A.C.; Villegas, M.; Ferrari, B., 2011:
Electrophoretic deposition of transparent ZnO thin films from highly stabilized colloidal suspensions

Wang, G-Jen.; Chou, S-Wei., 2010:
Electrophoretic deposition of uniformly distributed TiO2 nanoparticles using an anodic aluminum oxide template for efficient photolysis

Joung, Y.Soo.; Buie, C.R., 2011:
Electrophoretic deposition of unstable colloidal suspensions for superhydrophobic surfaces

Sun, G.; Ma, J.; Zhang, S., 2015:
Electrophoretic deposition of zinc-substituted hydroxyapatite coatings

Huo, J.Pei.; Deng, G.Hua.; Wu, W.; Xiong, J.Feng.; Zhong, M.Li.; Wang, Z.Yang., 2014:
Electrophoretic deposition polymerization of diacetylenes with tunable structure

Boccaccini, A.R.; Dickerson, J.H., 2013:
Electrophoretic deposition: fundamentals and applications

Mori, I.; Shinogi, M.; Falk, E.; Kiso, Y., 1972:
Electrophoretic determination of pK-values of indicators and their relation to colour changes

Mora, M.F.; Giacomelli, C.E.; Garcia, C.D., 2007:
Electrophoretic effects of the adsorption of anionic surfactants to poly(dimethylsiloxane)-coated capillaries

Guo, A.; Han, M.; Martinez, T.; Ketchem, R.R.; Novick, S.; Jochheim, C.; Balland, A., 2008:
Electrophoretic evidence for the presence of structural isoforms specific for the IgG2 isotype

Meighan, M.M.; Keebaugh, M.W.; Quihuis, A.M.; Kenyon, S.M.; Hayes, M.A., 2010:
Electrophoretic exclusion for the selective transport of small molecules

Das, M.; Dhand, C.; Sumana, G.; Srivastava, A.K.; Nagarajan, R.; Nain, L.; Iwamoto, M.; Manaka, T.; Malhotra, B.D., 2011:
Electrophoretic fabrication of chitosan-zirconium-oxide nanobiocomposite platform for nucleic acid detection

Ansell, R.J.; Tuñón, P.González.; Wang, Y.; Myers, P.; Ivory, C.F.; Keen, J.N.; Findlay, J.B.C., 2009:
Electrophoretic field gradient focusing with on-column detection by fluorescence quenching

Markova, V.; Nenova, I.; Deneva, T.; Beleva, E.; Grudeva-Popova, J., 2013:
Electrophoretic finding of bisalbuminemia

Sáiz, J.; Ortega-Ojeda, F.; López-Melero, Lía.; Montalvo, G.; García-Ruiz, C., 2015:
Electrophoretic fingerprinting of benzodiazepine tablets in spike drinks

Hall, A.R.; van Dorp, S.; Lemay, S.G.; Dekker, C., 2010:
Electrophoretic force on a protein-coated DNA molecule in a solid-state nanopore

Paltrinieri, S.; Cazzaniga, S.; da Cunha, Nè.Pinto.; Giordano, A., 2011:
Electrophoretic fractionation of creatine kinase isoenzymes and macroenzymes in clinically healthy dogs and cats and preliminary evaluation in central neurologic disease

Coss, J.A.; Lipman, M.O., 1948:
Electrophoretic fractionation of the agglutinin for group A haemolytic streptococcus in serum

Craig, D.B.; Henderson, A., 2013:
Electrophoretic heterogeneity limits the utility of streptavidin-β-galactosidase as a probe in free zone capillary electrophoresis separations

Noh, H.; Barnthip, N.; Parhi, P.; Vogler, E.A., 2014:
Electrophoretic implementation of the solution-depletion method for measuring protein adsorption, adsorption kinetics, and adsorption competition among multiple proteins in solution

Low, S.C.; Shaimi, R.; Thandaithabany, Y.; Lim, J.K.; Ahmad, A.L.; Ismail, A., 2014:
Electrophoretic interactions between nitrocellulose membranes and proteins: Biointerface analysis and protein adhesion properties

Berg, M.H.; Balice, F.W.; Curtis, A.C., 1949:
Electrophoretic investigations of vital fluids from patients with bullous diseases; preliminary report

Munro, F.L.; Munro, M.P., 2018:
Electrophoretic isolation of a circulating anticoagulant

Nekrasova, I.V.; Przyboś, E.; Rautian, M.S.; Potekhin, A.A., 2011:
Electrophoretic karyotype polymorphism of sibling species of the Paramecium aurelia complex

Park, Y-Jin.; Kim, J-Kun.; Kong, W-Sik.; Song, E-Sung.; Lee, C-Soo.; Kim, H.; Hahn, J-Ho.; Kang, H-Wan.; Lee, B-Moo., 2010:
Electrophoretic karyotyping and construction of a bacterial artificial chromosome library of the winter mushroom Flammulina velutipes

Esposto, M.Carmela.; Cogliati, M.; Tortorano, A.Maria.; Viviani, M.Anna., 2008:
Electrophoretic karyotyping of Cryptococcus neoformans AD-hybrid strains

Lee, S.Hee.; Kim, M.Keun.; Lee, M.Kyoung.; Kim, N.Ri.; Lee, C-Yun.; Lee, H-Sook., 2015:
Electrophoretic karyotyping of Hypsizygus marmoreus and evaluation of variation among its basidiospores

Yamada, M.; Harada, M.; Okada, T., 2009:
Electrophoretic levitation and focusing of particles by field switching

Deb-Choudhury, S.; Plowman, J.E.; Thomas, A.; Krsinic, G.L.; Dyer, J.M.; Clerens, S., 2010:
Electrophoretic mapping of highly homologous keratins: a novel marker peptide approach

Poyton, M.F.; Cremer, P.S., 2014:
Electrophoretic measurements of lipid charges in supported bilayers

Urban, P.L.; Bergström, E.T.; Goodall, D.M.; Narayanaswamy, S.; Bruce, N.C., 2007:
Electrophoretic method for assessment of substrate promiscuity of a heterogeneous biocatalyst using an area imaging ultraviolet detector

Surugau, N.; Urban, P.L., 2009:
Electrophoretic methods for separation of nanoparticles

Wittig, I.; Schägger, H., 2007:
Electrophoretic methods to isolate protein complexes from mitochondria

Dewald, A.H.; Poe, B.L.; Landers, J.P., 2008:
Electrophoretic microfluidic devices for mutation detection in clinical diagnostics