1 |
Preferential oxidation of CO in H-2 on Cu and Cu/CeOx catalysts studied by in situ UV-Vis and mass spectrometry and DFT Bu YB, Er S, Niemantsverdriet JW, Fredriksson HOA Journal of Catalysis, 357, 176, 2018 |
2 |
Metal oxide-confined interweaved titania nanotubes M/TNT (M = Mn, Cu, Ce, Fe, V, Cr, and Co) for the selective catalytic reduction of NOx in the presence of excess oxygen Boningari T, Pappas DK, Smirniotis PG Journal of Catalysis, 365, 320, 2018 |
3 |
Direct synthesis of carbon nanotubes using Cu-Sn catalyst on Cu substrates and their corrosion behavior in 0.6 M NaCl solution Jeong N, Jwa E, Kim C, Choi JY, Nam JY, Park SC, Jang MS Applied Surface Science, 423, 283, 2017 |
4 |
Kinetics of deactivation on Cu/ZnO/Al2O3 methanol synthesis catalysts Fichtl MB, Schlereth D, Jacobsen N, Kasatkin I, Schumann J, Behrens M, Schlogl R, Hinrichsen O Applied Catalysis A: General, 502, 262, 2015 |
5 |
Theoretical study of direct versus oxygen-assisted water dissociation on the Cu(110) surface Wang WJ, Wang GP Applied Surface Science, 351, 846, 2015 |
6 |
Characterization of a certified reference material (NMIJ CRM 8301-a) for determination of Cu in bio-ethanol Zhu YB, Narukawa T, Numata M, Kitamaki Y, Matsuo M, Hioki A, Kato K, Chiba K Fuel, 103, 736, 2013 |
7 |
Formation of copper islands on a native SiO2 surface at elevated temperatures Cechal J, Polcak J, Kolibal M, Babor P, Sikola T Applied Surface Science, 256(11), 3636, 2010 |
8 |
Mechanical effects of polishing pad in copper electrochemical mechanical deposition for planarization Jeong S, Lee S, Park B, Kim H, Kim S, Jeong H Current Applied Physics, 10(1), 299, 2010 |
9 |
Effective parameters for DME steam reforming catalysts for the formation of H2 and CO Park S, Kim H, Choi B Journal of Industrial and Engineering Chemistry, 16(5), 734, 2010 |
10 |
Biogenic Separation, Accumulation and Cellular Distribution of Cu, Co, and Ni in Medicago sativa under Idealized Conditions Bali R, Siegele R, Harris AT Separation Science and Technology, 45(10), 1395, 2010 |