화학공학소재연구정보센터
검색결과 : 98건
No. Article
61 Acetic acid catalysed carbon xerogels derived from resorcinol-furfural for hydrogen storage
Tian HY, Buckley CE, Paskeuicius M, Sheppard DA
International Journal of Hydrogen Energy, 36(1), 671, 2011
62 In situ XPS study of the adsorption and reactions of NO and O-2 on gold nanoparticles deposited on TiO2 and SiO2
Herranz T, Deng XY, Cabot A, Liu Z, Salmeron M
Journal of Catalysis, 283(2), 119, 2011
63 Columnar Phases in Liquid Crystal Dendrimers: Variable Pressure X-Ray Diffraction
Richardson RM, Hanna S, Brooks NJ, Gauthe BLLE, Pizzey C, Agina E, Boiko N, Shibaev VP
Molecular Crystals and Liquid Crystals, 541, 415, 2011
64 A comparative in situ XPS study of PtRuCo catalyst in methanol steam reforming and water gas shift reactions
Zafeiratos S, Paloukis F, Papakonstantinou G, Teschner D, Havecker M, Vass E, Schnorch P, Knop-Gericke A, Schlogl R, Moreno B, Chinarro E, Jurado JR, Neophytides SG
Catalysis Today, 157(1-4), 250, 2010
65 A study on the macroscopic spray behavior and atomization characteristics of biodiesel and dimethyl ether sprays under increased ambient pressure
Kim HJ, Park SH, Lee CS
Fuel Processing Technology, 91(3), 354, 2010
66 Influence of aging conditions on textural properties of water-glass-based silica aerogels prepared at ambient pressure
Sarawade PB, Kim JK, Hilonga A, Kim HT
Korean Journal of Chemical Engineering, 27(4), 1301, 2010
67 Synthesis, structure and properties of cross-linked R(SiO1.5)/SiO2 (R=3-glycidoxypropyl) porous organic inorganic hybrid networks dried at ambient pressure
Shajesh P, Smitha S, Aravind PR, Warrier KGK
Journal of Colloid and Interface Science, 336(2), 691, 2009
68 Effect of different trimethyl silylating agents on the hydrophobic and physical properties of silica aerogels
Shewale PM, Rao AV, Rao AP
Applied Surface Science, 254(21), 6902, 2008
69 Numerical simulation about interaction between pressure swirl spray and hot porous medium
Zhao ZG, Xie MZ
Energy Conversion and Management, 49(5), 1047, 2008
70 High specific surface area TEOS-based aerogels with large pore volume prepared at an ambient pressure
Sarawade PB, Kim JK, Kim HK, Kim HT
Applied Surface Science, 254(2), 574, 2007