41 |
Effect of K promotion of Fe and FeMn Fischer-Tropsch synthesis catalysts: Analysis at the site level using SSITKA Lohitharn N, Goodwin JG Journal of Catalysis, 260(1), 7, 2008 |
42 |
Importance of pressure gradient in solid oxide fuel cell electrodes for modeling study Ni M, Leung DYC, Leung MKH Journal of Power Sources, 183(2), 668, 2008 |
43 |
Kinetics of the water-gas shift reaction on Pt catalysts supported on alumina and ceria Phatak AA, Koryabkina N, Rai S, Ratts JL, Ruettinger W, Farrauto RJ, Blau GE, Delgass WN, Ribeiro FH Catalysis Today, 123(1-4), 224, 2007 |
44 |
Ultrahigh temperature water gas shift catalysts to increase hydrogen yield from biomass gasification Haryanto A, Fernando S, Adhikari S Catalysis Today, 129(3-4), 269, 2007 |
45 |
Which method is better for the kinetic modeling: Decimal encoded or Binary Genetic Algorithm? Boozarjomehry RB, Masoori M Chemical Engineering Journal, 130(1), 29, 2007 |
46 |
State-of-the-art adsorption and membrane separation processes for hydrogen production in the chemical and petrochemical industries Ritter JA, Ebner AD Separation Science and Technology, 42(6), 1123, 2007 |
47 |
Preferential CO oxidation in the presence of H-2, H2O and CO2 at short contact-times Jhalani A, Schmidt LD Catalysis Letters, 104(3-4), 103, 2005 |
48 |
Low temperature water gas shift: Type and loading of metal impacts forward decomposition of pseudo-stabilized formate over metal/ceria catalysts Jacobs G, Ricote S, Graham UM, Patterson PM, Davis BH Catalysis Today, 106(1-4), 259, 2005 |
49 |
Low temperature water gas shift: the link between the catalysis of WGS and formic acid decomposition over Pt/ceria Jacobs G, Patterson PM, Graham UM, Crawford AC, Davis BH International Journal of Hydrogen Energy, 30(11), 1265, 2005 |
50 |
Low-temperature water-gas shift: impact of Pt promoter loading on the partial reduction of ceria and consequences for catalyst design Jacobs G, Graham UM, Chenu E, Patterson PM, Dozier A, Davis BH Journal of Catalysis, 229(2), 499, 2005 |