Section 87

EurekaMag Full Text Articles Chapter 86,718


Bekyarova, E.; Murata, K.; Kaneko, K.; Kasuya, D.; Yudasak, M.; Iijima, S. 2003: Porosity tuning of single-wall carbon nanohorns with gaseous activation. Nanotechnology in Mesostructured Materials, Proceedings of the 3rd International Materials Symposium: 395-398
Zou, M.; Wei, C.; Huang, Z.; Wei, S. 2015: Porosity type analysis and permeability model for micro-trans-pores, meso-macro-pores and cleats of coal samples. Journal of Natural Gas Science and Engineering 27: 776-784
Galina, H.; Kolarz, B.N. 1980: Porosity variation and swelling of styrene-divinylbenzene copolymers. Polymer Bulletin 2(4): 235-239
Sayers, C.M.; den Boer, L.D. 2021: Porosity variation of elastic wave velocities in clean sandstones. Geophysical Prospecting 69(8-9): 1733-1744
Qiu, J.; Khalloufi, S.; Martynenko, A.; Van Dalen, G.; Schutyser, M.; Almeida-Rivera, C. 2015: Porosity, Bulk Density, and Volume Reduction During Drying: Review of Measurement Methods and Coefficient Determinations. Drying Technology 33(14): 1681-1699
Weiler, J.; Wood, J.; Klassen, R.; Maire, .; Berkmortel, R.; Wang, G. 2006: Porosity, Damage Evolution and Fracture in Die-Cast Magnesium Alloy AM60B. Advanced Materials Research 15-17: 455-460
Weiler, J.; Wood, J.; Klassen, R.; Maire, E.; Berkmortel, R.; Wang, G. 2006: Porosity, Damage Evolution and Fracture in Die-Cast Magnesium Alloy AM60B. THERMEC 2006 Supplement: 455-460
Dzukey, G.A.; Yang, K.; Wang, Q.; Zhuang, B.; Hou, W. 2020: Porosity, Hardness, Friction and Wear Performance Analysis of H13 SLM-Formed Samples. Journal of Materials Engineering and Performance 29(8): 4957-4966
Martínez-Barrera, G.; Lopez, A.; Alvarez-castillo, A.; Hernández, F.; Barajas, A.; Deicaza, M.; Castaño, V.M. 2000: Porosity, Microstructure and Thermal Stability of Microwave-cured Polymeric Denture Molds. International Journal of Polymeric Materials 45(1-2): 41-54
Erniati; Tjaronge, M.W.; Zulharnah; Irfan, U.R. 2015: Porosity, Pore Size and Compressive Strength of Self Compacting Concrete Using Sea Water. Procedia Engineering 125: 832-837
Ansón, A.; Jagiello, J.; Parra, J.B.; Sanjuán, M.L.; Benito, A.M.; Maser, W.K.; Martínez, M.T. 2004: Porosity, Surface Area, Surface Energy, and Hydrogen Adsorption in Nanostructured Carbons. The Journal of Physical Chemistry B 108(40): 15820-15826
Ausloos, M.; Laurent, C.; Vanderschueren, H.; Rulmont, A.; Tarte, P. 1988: Porosity, magnetic field, and anisotropy effects on resistivity and thermoelectric power of classical and substituted ceramic oxide superconductors. Physica C: Superconductivity 153-155: 1351-1352
Bai, C.; Ni, T.; Wang, Q.; Li, H.; Colombo, P. 2018: Porosity, mechanical and insulating properties of geopolymer foams using vegetable oil as the stabilizing agent. Journal of the European Ceramic Society 38(2): 799-805
Lothe, A.E.; Emmel, B.; Bergmo, P.; Akervoll, I.; Todorovic, J.; Bhuiyan, M.; Knies, J. 2018: Porosity, permeability and compaction trends for Scandinavian regoliths. Marine and Petroleum Geology 92: 319-331
Hargrove, G.L.; Sawyer, D.T. 1967: Porosity, permeability, gas diffusion, and carrier gas velocity in packed gas chromatographic columns. Analytical Chemistry 39(8): 945-948
Mera, M E.; Mor n, M.; Preiss, D.; Zaj cek, L. 2002: Porosity,  -porosity and measures. Nonlinearity 16(1): 247-255
Shen, Z.; Lin, Y.; Zhang, Y.; Rong, J.; Yu, X.; Zhan, Z. 2019: Porosity-Based Design and Finite-Element Analysis of Self-Lubricating Chromium-Free Passivation Film. JOM 72(2): 658-664
Ding, L.; Gao, H.; Xie, F.; Li, W.; Bai, H.; Li, L. 2017: Porosity-Enhanced Polymers from Hyper-Cross-Linked Polymer Precursors. Macromolecules 50(3): 956-962
Hu, C.; Bai, S.; Gao, L.; Liang, S.; Yang, J.; Cheng, S.; Mi, S.; Qiu, J. 2019: Porosity-Induced High Selectivity for CO2 Electroreduction to CO on Fe-Doped ZIF-Derived Carbon Catalysts. ACS Catalysis 9(12): 11579-11588
Stumpf, F.B.; Lukman, F.J. 1960: Porosity-Measurement Apparatus. American Journal of Physics 28(5): 503-504
Roy, D.M.; Gouda, G.R. 1973: Porosity-Strength Relation in Cementitious Materials with very High Strengths. Journal of the American Ceramic Society 56(10): 549-550
Wang, L.; Wang, M.; Wan, G.; Guo, X.; Xie, X.; Liu, W.; Zhang, Y.; Fan, J.; Hou, X.; Chen, Z. 2020: Porosity-Tunable Structures with "Fossilized" Bubbles. ACS Applied Polymer Materials 2(2): 497-504
Nakamura, D.; Shigetoh, K.; Kimura, T. 2018: Porosity-controlled multilayer Ta C coatings prepared via wet powder process for multi-functional reactor components in Ga N crystal growth system. Ceramics International 44(17): 21284-21288
Phung-Van, P.; Thai, C.H.; Nguyen-Xuan, H.; Abdel Wahab, M. 2019: Porosity-dependent nonlinear transient responses of functionally graded nanoplates using isogeometric analysis. Composites Part B: Engineering 164: 215-225
Gheorghiu, F.; Padurariu, L.; Airimioaei, M.; Curecheriu, L.; Ciomaga, C.; Padurariu, C.; Galassi, C.; Mitoseriu, L. 2016: Porosity-dependent properties of Nb-doped Pb(Zr,Ti)O3ceramics. Journal of the American Ceramic Society 100(2): 647-658
Ebrahimi, F.; Barati, M.R. 2017: Porosity-dependent vibration analysis of piezo-magnetically actuated heterogeneous nanobeams. Mechanical Systems and Signal Processing 93: 445-459
Barati, M.R. 2017: Porosity-dependent vibration and dynamic stability of compositionally gradient nanofilms using nonlocal strain gradient theory. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science 232(17): 3144-3155
Xue, Y.; Lee, C.S.; Bae, J. 2018: Porosity-engineered Hard Carbons Hybridized with Carbon Nanotubes for Electrochemical Capacitors. Bulletin of the Korean Chemical Society 39(10): 1171-1175
Lee, J.M.; Wu, T.; Alston, B.M.; Briggs, M.E.; Hasell, T.; Hu, C.; Cooper, A.I. 2016: Porosity-engineered carbons for supercapacitive energy storage using conjugated microporous polymer precursors. Journal of Materials Chemistry A 4(20): 7665-7673
Kang, Y.; Zhan, X.; He, S.; Liu, T.; Sun, L. 2020: Porosity-grain growth relationships in the laser beam deep penetration welding of 6061 aluminum alloy. Journal of Adhesion Science and Technology 35(13): 1372-1392
Li, Y.; Bi, S.; Liu, F.; Wu, S.; Hu, J.; Wang, L.; Liu, H.; Hu, Y. 2015: Porosity-induced emission: exploring color-controllable fluorescence of porous organic polymers and their chemical sensing applications. Journal of Materials Chemistry C 3(26): 6876-6881
Cui, J.; Xiao, H.; Cao, D.; Ji, Z.; Ma, J. 2015: Porosity-induced relaxation of strains at different depth of nanoporous Ga N studied using the Z-scan of Raman spectroscopy. Journal of Alloys and Compounds 626: 154-157
Cui, J.; Cao, D.; Gao, Q.; Yang, X.; Liu, J.; Ma, J.; Xiao, H. 2017: Porosity-induced weakening of piezoresponse in Ga N layers by means of piezoelectric force microscopy. Materials Letters 208: 31-34
Li, X.; Jiang, Z.; Wang, P.; Song, Y.; Li, Z.; Tang, X.; Li, T.; Zhai, G.; Bao, S.; Xu, C.; Wu, F. 2018: Porosity-preserving mechanisms of marine shale in Lower Cambrian of Sichuan Basin, South China. Journal of Natural Gas Science and Engineering 55: 191-205
Hoff, G.C. 1972: Porosity-strength considerations for cellular concrete. Cement and Concrete Research 2(1): 91-100
Mondal, M.; Das, B.; Howli, P.; Das, N.; Chattopadhyay, K. 2018: Porosity-tuned Ni O nanoflakes: Effect of calcination temperature for high performing supercapacitor application. Journal of Electroanalytical Chemistry 813: 116-126
Saini, S.; Mele, P.; Oyake, T.; Shiomi, J.; Niemelä, J.; Karppinen, M.; Miyazaki, K.; Li, C.; Kawaharamura, T.; Ichinose, A.; Molina-Luna, L. 2019: Porosity-tuned thermal conductivity in thermoelectric Al-doped Zn O thin films grown by mist-chemical vapor deposition. Thin Solid Films 685: 180-185
Consoli, N.C.; da Silva, A.; Barcelos, A.M.; Festugato, L.; Favretto, F. 2019: Porosity/Cement Index Controlling Flexural Tensile Strength of Artificially Cemented Soils in Brazil. Geotechnical and Geological Engineering 38(1): 713-722
Akhter, R.; Li, L.; Edwards, R.; Gale, A. 2003: Porosity/bubble formation mechanism in laser surface enamelling. Applied Surface Science 208-209: 447-452
Waseburn, E.W. 1921: Porosity: I. Purpose of the Investigation Ii. Porosity and the Mechanism of Absorption1. Journal of the American Ceramic Society 4(11): 916-922
Washburn, E.W.; Fooyitt, F.F. 1921: Porosity: Iii. Water as An Absorption Liquid. Journal of the American Ceramic Society 4(12): 961-982
Washburn, E.W.; Bunting, E.N. 1922: Porosity: V. Recommended Procedures for Determining Porosity by Methods of Absorption. Journal of the American Ceramic Society 5(1): 48-56
Washburn, E.W.; Bunting, E.N. 1922: Porosity: Vi. Determination of Porosity by the Method of Gas Expansion. Journal of the American Ceramic Society 5(2): 112-130
Washburn, E.W.; Bunting, E.N. 1922: Porosity: Vii. the Determination of the Porosity of Highly Vitrified Bodies43. Journal of the American Ceramic Society 5(8): 527-537
Pérez-Ramírez, J. 2014: Porosity: the Hegemony of Empty Space in Functional Materials Design. Advanced Functional Materials 24(2): 180-181
Hommel, J.; Coltman, E.; Class, H. 2018: Porosity–Permeability Relations for Evolving Pore Space: a Review with a Focus on (Bio-)geochemically Altered Porous Media. Transport in Porous Media 124(2): 589-629
Bakan, E.; Mack, D.E.; Mauer, G.; Mücke, R.; Vaßen, R. 2015: Porosity–Property Relationships of Plasma‐Sprayed Gd 2 Zr 2 O 7 / YSZ Thermal Barrier Coatings. Journal of the American Ceramic Society 98(8): 2647-2654
Hall, C.; Hamilton, A. 2013: Porosity–density relations in stone and brick materials. Materials and Structures 48(5): 1265-1271
Matusinović, T.; Šipušić, J.; Vrbos, N. 2003: Porosity–strength relation in calcium aluminate cement pastes. Cement and Concrete Research 33(11): 1801-1806
Jauch, U.; Ondracek, G. 1986: Porosität und Thermoschockbeständigkeit Keramischer Werkstoffe. Materialwissenschaft und Werkstofftechnik 17(9): 316-317
Wolkowa, Z.W. 1934: Porositätsbestimmungen von Dispersoiden nach der Eindringungsgeschwindigkeit von Flüssigkeiten. Kolloid-Zeitschrift 67(3): 280-284
Appelt, K.; Nowacki, A. 1966: Porositätsmessungen durch absorption von röntgenstrahlen. Electrochimica Acta 11(2): 137-142
Dück, J.; Zvetanov, E.; Neeße, T. 1999: Porositätsmodell für feinkörnige Filterkuchen. Chemie Ingenieur Technik 71(7): 692-696
Craciun, C. 2013: Porosomes: Current Concepts of the Mechanism of Exocytosis. Acta Endocrinologica (Bucharest) 9(4): 605-612
Jena, B.P. 2018: Porosomes: Supramolecular Structures at the Synaptosome Membrane Involved in Vesicle Docking, Fusion, and Neurotransmitter Release. Neuromethods: 209-225
Bek, J.; Leary, R. 2012: Porostrobus nathorstii (Leary and Mickle) emend. and its spores from the Namurian of Illinois, USA. Bulletin of Geosciences: 45-52
Gao, J.; Deng, J.; Lan, K.; Feng, Y.; Zhang, W.; Wang, H. 2017: Porothermoelastic effect on wellbore stability in transversely isotropic medium subjected to local thermal non-equilibrium. International Journal of Rock Mechanics and Mining Sciences 96: 66-84
Lin, B.; Meng, H.; Pan, J.; Chen, S. 2020: Porothermoelastic response of an oil sand formation subjected to injection and micro-fracturing in horizontal wells. Petroleum Science 17(3): 687-700
Ascenzi, A.; Balistreri, P. 1977: Porotic hyperostosis and the problem of origin of thalassemia in Italy. Journal of Human Evolution 6(7): 595-604
Germanà, F.; Ascenzi, A. 1980: Porotic hyperostosis in Sardinia. Journal of Human Evolution 9(1): 75-78
Md Saad, S.K.; Umar, A.A.; Nguyen, H.Q.; Dee, C.F.; Salleh, M.M.; Oyama, M. 2014: Porous (001)-faceted Zn-doped anatase Ti O2 nanowalls and their heterogeneous photocatalytic characterization. RSC Adv. 4(100): 57054-57063
Chen, G.; Li, C.; Li, H.; Wang, L.; Chen, K.; An, L. 2021: Porous (Ce0.2Zr0.2Ti0.2Sn0.2Ca0.2)O2-δ high-entropy ceramics with both high strength and low thermal conductivity. Journal of the European Ceramic Society 41(16): 309-314
Zhang, Z.; Ji, Y.; Li, J.; Zhu, Y.; Zhong, Z.; Su, F. 2016: Porous (Cu O)x Zn O hollow spheres as efficient Rochow reaction catalysts. CrystEngComm 18(16): 2808-2819
Xiao, S.; Mei, H.; Han, D.; Yuan, W.; Cheng, L. 2018: Porous (Si Cw-Si3N4w)/(Si3N4-Si C) composite with enhanced mechanical performance fabricated by 3D printing. Ceramics International 44(12): 14122-14127
Yang, J.; Cheng, F.; Zhang, X.; Gao, H.; Tao, Z.; Chen, J. 2014: Porous 0.2Li2Mn O3·0.8Li Ni0.5Mn0.5O2nanorods as cathode materials for lithium-ion batteries. J. Mater. Chem. A 2(6): 1636-1640
Boldog, I.; Dušek, M.; Jelínek, T.; Švec, P.; Ramos, F.S.d.O.; Růžička, A.; Bulánek, R. 2018: Porous 10- and 12-vertex (bi)-p-dicarba-closo-boranedicarboxylates of cobalt and their gas adsorptive properties. Microporous and Mesoporous Materials 271: 284-294
Gayraud, P.; Essayem, N.; Védrine, J. 2000: Porous 12-tungstophosphoric alkaline salts for isobutane/butene alkylation influence of protonic density and surface polarity of the HPA: Effects of the supercritical phase. Studies in Surface Science and Catalysis: 2549-2554
Jia, Y.; Zhu, B.; Zhang, K.; Jin, Z.; Sun, B.; Luo, T.; Yu, X.; Kong, L.; Liu, J. 2015: Porous 2-line ferrihydrite/bayerite composites (LFBC): Fluoride removal performance and mechanism. Chemical Engineering Journal 268: 325-336
Liu, S.; Xiao, Q.; Kuroda-sowa, T.; Ning, G.; Munakata, M. 2006: Porous 2D Copper(I) Complex of 1,3-Dicyanobenzene for Anion Exchange and Reversible Incorporation of Guest Molecules. Chinese Journal of Chemistry 24(2): 269-272
Yuan, Y.; Kong, Z.; Qiao, L.; Xu, Z.; Wang, Z.; Teng, X.; Dong, Y.; Liu, X.; Fu, A.; Li, Y.; Li, H. 2021: Porous 3D Architecture of Carbon‐Encapsulated Fe 3 O 4 Nanospheres Anchored on Networks of Carbon Nanotubes as Anodes for Advanced Lithium‐Ion Batteries. ChemElectroChem 8(23): 4480-4489
Liu, Z. 2017: Porous 3D Few-Layer Graphene-Like Carbon for Ultrahigh-Power Supercapacitors. Acta Physico-Chimica Sinica 33(5): 855-856
Zhang, Z.; Yang, W.; Wu, Y.; Yan, G.; Li, L.; Qing, Y.; Lu, X. 2021: Porous 3D Honeycomb Structure Biomass Carbon as a Supercapacitor Electrode Material to Achieve Efficient Energy Storage. Industrial-Engineering Chemistry Research 60(30): 11079-11085
Lim, Y.S.; Lai, C.W.; Abd Hamid, S.B. 2017: Porous 3D carbon decorated Fe3O4 nanocomposite electrode for highly symmetrical supercapacitor performance. RSC Advances 7(37): 23030-23040
Donaldson, L. 2017: Porous 3D graphene that is stronger than steel. Materials Today 20(3): 98-99
Liu, D.; Li, Q.; Hou, J.; Zhao, H. 2018: Porous 3D graphene-based biochar materials with high areal sulfur loading for lithium–sulfur batteries. Sustainable Energy-Fuels 2(10): 2197-2205
Luo, K.; Wang, L.; Wang, Y.; Zhou, S.; Zhang, P.; Li, J. 2020: Porous 3D hydroxyapatite/polyurethane composite scaffold for bone tissue engineering and its in vitro degradation behavior. Ferroelectrics 566(1): 104-115
Luo, K.; Wang, L.; Chen, X.; Zeng, X.; Zhou, S.; Zhang, P.; Li, J. 2021: Porous 3D polyurethane composite scaffolds with incorporation of highly mineralized calcium citrate for bone tissue engineering. International Journal of Polymeric Materials and Polymeric Biomaterials: 1-10
Singu, B.S.; Yoon, K.R. 2016: Porous 3D-β-nickel hydroxide microflowers for electrochemical supercapacitors. Journal of Industrial and Engineering Chemistry 33: 374-380
Zhang, Q.; Gao, Q.; Qian, W.; Zhang, H.; Li, Z.; Tan, Y.; Tian, W. 2018: Porous A-Sn O2 /r GO Nanocomposite via Annealing Treatment with Stable High-Capacity as Anode of Lithium-Ion Battery. ChemistrySelect 3(16): 4303-4309
Xu, Q.; Meng, G.; Han, F. 2018: Porous AAO template-assisted rational synthesis of large-scale 1D hybrid and hierarchically branched nanoarchitectures. Progress in Materials Science 95: 243-285
Semerak, T.S.; von Estorff, O. 2015: Porous Absorber Modeling for Low-Mid Frequency Finite Element Method. Acta Acustica united with Acustica 101(4): 829-841
Cai, F.; Chen, J.; Xu, R. 2006: Porous Acetylene-black Spheres as the Cathode Materials of Dye-sensitized Solar Cells. Chemistry Letters 35(11): 1266-1267
Yuan, Y.; Yi, R.; Sun, Y.; Zeng, J.; Li, J.; Hu, J.; Zhao, Y.; Sun, W.; Zhao, C.; Yang, L.; Zhao, C. 2018: Porous Activated Carbons Derived from Pleurotus eryngii for Supercapacitor Applications. Journal of Nanomaterials 2018: 1-10
Chen, Z.; Liu, K.; Liu, S.; Xia, L.; Fu, J.; Zhang, X.; Zhang, C.; Gao, B. 2017: Porous Active Carbon Layer Modified Graphene for High-performance Supercapacitor. Electrochimica Acta 237: 102-108
Li, Y.; Ding, Y. 2010: Porous Ag Cl/Ag Nanocomposites with Enhanced Visible Light Photocatalytic Properties. The Journal of Physical Chemistry C 114(7): 3175-3179
Yang, Y.; Liao, H.; Tong, Z.; Wang, C. 2015: Porous Ag/polymer composite microspheres for adsorption and catalytic degradation of organic dyes in aqueous solutions. Composites Science and Technology 107: 137-144
Hua, X.; Jin, Y.; Wang, K.; Li, N.; Liu, H.; Chen, M.; Paul, S.; Zhang, Y.; Zhao, X.; Teng, F. 2014: Porous Ag3PO4 microtubes with improved photocatalytic properties. Catalysis Communications 52: 49-52
Inumaru, K.; Nakajima, H.; Ito, T.; Misono, M. 1996: Porous Aggregates of Unidirectionally Oriented (NH4)3PW12O40Microcrystallites: Epitaxial Self-Assembly. Chemistry Letters 25(7): 559-560
Wang, F.; Cheng, S.; Wan, B. 2008: Porous Ag–CGO cermets as anode materials for ITSOFC using CO fuel. Catalysis Communications 9(7): 1595-1599
Narasimharao, K.; Al-Shehri, A.; Al-Thabaiti, S. 2015: Porous Ag–Fe2O3 nanocomposite catalysts for the oxidation of carbon monoxide. Applied Catalysis A: General 505: 431-440
Geyer, T.; Sarradj, E.; Fritzsche, C. 2010: Porous Airfoils: Noise Reduction and Boundary Layer Effects. International Journal of Aeroacoustics 9(6): 787-820
Wang, H.; Liu, X.; Kong, H.; Xin, J.; Gao, P.; Shi, E. 2016: Porous Al N with a Low Dielectric Constant Synthesized Based on the Physical Vapor Transport Principle. Journal of Electronic Materials 45(7): 3263-3267
Chouchene, B.; Chaabane, T.B.; Mozet, K.; Girot, E.; Corbel, S.; Balan, L.; Medjahdi, G.; Schneider, R. 2017: Porous Al-doped Zn O rods with selective adsorption properties. Applied Surface Science 409: 102-110
Cui, J.; Yang, J.; Man, J.; Li, S.; Yin, J.; Ma, L.; He, W.; Sun, J.; Hu, J. 2019: Porous Al/Al2O3 two-phase nanonetwork to improve electrochemical properties of porous C/Si O2 as anode for Li-ion batteries. Electrochimica Acta 300: 470-481
Dong, Y.; Jiang, H.; Chen, A.; Yang, T.; Zou, T.; Xu, D. 2020: Porous Al2O3 ceramics with spontaneously formed pores and enhanced strength prepared by indirect selective laser sintering combined with reaction bonding. Ceramics International 46(10): 15159-15166
Yu, M.; Zhou, K.; Zhang, Y.; Zhang, D. 2014: Porous Al2O3 microspheres prepared by a novel ice-templated spray drying technique. Ceramics International 40(1): 1215-1219
Dong, B.; Yang, M.; Wang, F.; Hao, L.; Xu, X.; Wang, G.; Agathopoulos, S. 2019: Porous Al2O3 plates prepared by combing foaming and gel-tape casting methods for efficient collection of oil from water. Chemical Engineering Journal 370: 658-665
Yun, Y.; Kim, H.; Kim, Y.; Koh, J.; Nam, S. 2011: Porous Al2O3 thick films fabricated by aerosol deposition and low loss Al2O3–Cyanate ester hybrid films by resin infiltration. Current Applied Physics 11(1): S319-S323
Deng, Z.; Tanaka, Y.; Sakka, Y.; Kagawa, Y. 2005: Porous Al2O3/Al catalyst supports fabricated by an Al(OH)3/Al mixture and the effect of agglomerates. Journal of Materials Research 20(3): 672-679
Puri, R.K.; Puri, V. 2003: Porous Al2O3Cladded Chopped and Nonchopped Al2O3Thin Film Waveguides: Effect of Moisture and Leafy Vegetation. Japanese Journal of Applied Physics 42(Part 1, No. 11): 6892-6895
Liu, G.; Zhang, D.; Meggs, C.; Button, T.W. 2010: Porous Al2O3–Zr O2 composites fabricated by an ice template method. Scripta Materialia 62(7): 466-468
Barrios-Bermúdez, N.; Santos-Granados, J.; Calvino-Casilda, V.; Cerpa-Naranjo, A.; Rojas-Cervantes, M.L. 2019: Porous Alkaline-Earth Doped Multiwall Carbon Nanotubes with Base Catalytic Properties. Catalysis Letters 149(8): 2279-2290
Dakskobler, A.; Kocjan, A.; Kosmač, T. 2011: Porous Alumina Ceramics Prepared by the Hydrolysis-Assisted Solidification Method. Journal of the American Ceramic Society 94(5): 1374-1379
Kim, K.; Lefeveure, E.; Châtelet, M.; Cojocaru, C. 2012: Porous Alumina Template based Versatile and Controllable Direct Synthesis of Silicon nanowires. MRS Proceedings 1439: 11-16
Fadli, A.; Sopyan, I. 2010: Porous Alumina through Protein Foaming-Consolidation Method: Effect of Stirring time and Drying Temperature on the Physical Properties. Advanced Materials Research 93-94: 397-400
Liu, J.; Dong, Z.; Miao, X. 2010: Porous Alumina/Zirconia Composite Scaffold with Bioactive Glass 58S33C Coating. Journal of Biomimetics, Biomaterials and Tissue Engineering 6: 87-104
Hassanzadeh Fard, Z.; Islam, S.M.; Kanatzidis, M.G. 2015: Porous Amorphous Chalcogenides as Selective Adsorbents for Heavy Metals. Chemistry of Materials 27(18): 6189-6192
Xing, Y.; Zhang, X.; Liu, D.; Li, W.; Sun, L.; Geng, H.; Zhang, J.; Guan, H.; Wu, X. 2017: Porous Amorphous Co2 P/N,B-Co-doped Carbon Composite as an Improved Anode Material for Sodium-Ion Batteries. ChemElectroChem 4(6): 1395-1401
Zhao, X.; Zhao, J.; He, J.; Li, B.; Zhang, Y.; Hu, J.; Wang, H.; Zhang, D.; Liu, Q. 2020: Porous Anatase Ti O2 Nanocrystal Derived from the Metal–Organic Framework as Electron Transport Material for Carbon-Based Perovskite Solar Cells. ACS Applied Energy Materials 3(7): 6180-6187
Ponnusamy, D.; Madanagurusamy, S. 2015: Porous Anatase Ti O2 Thin Films for NH3 Vapour Sensing. Journal of Electronic Materials 44(12): 4726-4733
Zangooie, S.; Arwin, H. 2000: Porous Anodic 4H-Si C: Thickness Dependent Anisotropy in Pore Propagation and Ellipsometric Characterization. Physica status solidi (a) 182(1): 213-219
Baron-Wiecheć, A.; Skeldon, P.; Ganem, J.J.; Vickridge, I.C.; Thompson, G.E. 2012: Porous Anodic Alumina Growth in Borax Electrolyte. Journal of The Electrochemical Society 159(12): C583-C589
Guo, D.; Fan, L.; Wang, F.; Huang, S.; Zou, X. 2008: Porous Anodic Aluminum Oxide Bragg Stacks as Chemical Sensors. The Journal of Physical Chemistry C 112(46): 17952-17956
Chan, H.; Zhang, Z.; Bachman, M.; Li, G. 2019: Porous Anodic Aluminum Oxide Interposer: Fabrication, Characterization, and Evaluation. ECS Journal of Solid State Science and Technology 8(1): P18-P23
Hussain, M.A.; Irshad, M.; Haq, E.U.; Park, S.; Atif, M.; Hakeem, A.S.; Choi, B.G.; Kim, J.W. 2019: Porous Anodic Aluminum Oxide as an Efficient Support for Ruthenium-Catalyzed Aerobic Oxidation of Alcohols and Amines. Industrial-Engineering Chemistry Research 58(51): 23025-23031
Jung, D.Y.; Metzger, M. 1985: Porous Anodic Films on Aluminum at Low Potentials. Journal of The Electrochemical Society 132(2): 386-387
Ota, T.; Eitsuka, T.; Yoshida, H.; Adachi, N. 2006: Porous Apatite Ceramics Derived from Woods. Advanced Materials Research 11-12: 247-250
Ahmed, A.; Babarao, R.; Huang, R.; Medhekar, N.; Todd, B.D.; Hill, M.R.; Thornton, A.W. 2015: Porous Aromatic Frameworks Impregnated with Lithiated Fullerenes for Natural Gas Purification. The Journal of Physical Chemistry C 119(17): 9347-9354
Sun, D.; Yu, D.; Lin, S.; Wang, Z.; Deng, F.; Zhou, X.; Ma, G.; Lei, Z. 2021: Porous Attapulgite Interfaces with Nanochannels that Enable Dendrite-Free Aqueous Zinc Ion Batteries. ACS Applied Nano Materials 4(11): 11723-11731
Sun, Y.F.; Li, K.X.; Zhang, W.J. 2012: Porous B-Ti O2 Prepared by Sol-Gel Method Using Boric Acid as Boron Source. Advanced Materials Research 496: 146-149
Zhang, H.; Tong, C.; Zhang, Y.; Zhang, Y.; Liu, L. 2015: Porous BN for hydrogen generation and storage. Journal of Materials Chemistry A 3(18): 9632-9637
Liu, D.; Zhang, M.; Xie, W.; Sun, L.; Chen, Y.; Lei, W. 2017: Porous BN/Ti O2 hybrid nanosheets as highly efficient visible-light-driven photocatalysts. Applied Catalysis B: Environmental 207: 72-78
Adachi, N.; Kuwahara, M.; Sia, C.K.; Ota, T. 2009: Porous Ba Ferrite Prepared from Wood Template. Materials 2(4): 1923-1928
Sharma, M.; Singh, V.P.; Singh, S.; Azad, P.; Ilahi, B.; Madhar, N.A. 2018: Porous Ba0.85Ca0.15Zr0.1Ti0.9O3 Ceramics for Pyroelectric Applications. Journal of Electronic Materials 47(8): 4882-4891
Zhang, G.G.; Huang, H.T.; Chan, H.L.W.; Zhou, L.M. 2008: Porous Barium Strontium Titanate-Titania Nanocomposites for Photocatalytic Applications. Advanced Materials Research 47-50: 936-939
Wójcik, A.; Skubiszewska, J.; Gawdzik, B.; Ksieźycki, A. 1982: Porous Bead polyaromatic copolymers containing ester groups. Journal of Chromatography A 245(1): 65-70
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