1 |
Dynamic Monte Carlo simulations of the reaction mechanism of hydrogen production from formic acid on Ni(100) Rafiee M, Bashiri H Applied Surface Science, 475, 720, 2019 |
2 |
Dissociative adsorption and thermal evolution of dichloroethylenes on Ni(100) Xu SH, Yang X, He ZH, Leung KT Applied Surface Science, 253(23), 9221, 2007 |
3 |
Vibrational EELS and DFT study of propionic acid and pyruvic acid on Ni(100): Effects of keto group substitution on room-temperature adsorption and thermal chemistry Yang X, He ZH, Zhou XJ, Xu SH, Leung KT Applied Surface Science, 252(10), 3647, 2006 |
4 |
DFT studies of methanol decomposition on Ni(100) surface: Compared with Ni(111) surface Zhou YH, Lv PH, Wang GC Journal of Molecular Catalysis A-Chemical, 258(1-2), 203, 2006 |
5 |
Kinetics of dissociative hydrogen adsorption on the (100) nickel single crystal face: a statistical rate theory approach Panczyk T, Rudzinski W Applied Surface Science, 233(1-4), 141, 2004 |
6 |
The binding of CO to nickel clusters. I. Determination of saturation coverages Parks EK, Kerns KP, Riley SJ Journal of Chemical Physics, 112(7), 3384, 2000 |
7 |
Mechanism and cross sections for HD and CH4-xDx (x=1-4) formation in D(g)+CH3/Cu(111) reaction at 100 K Kim JY, Lee J Journal of Chemical Physics, 112(13), 6015, 2000 |
8 |
In situ X-ray scattering study of the passive film on Ni(111) in sulfuric acid solution Magnussen OM, Scherer J, Ocko BM, Behm RJ Journal of Physical Chemistry B, 104(6), 1222, 2000 |
9 |
Real time scanning tunneling microscopy study of the initial stages of oxidation of Ni(111) between 400 and 470 K Hildebrandt S, Hagendorf C, Doege T, Jeckstiess C, Kulla R, Neddermeyer H, Uttich T Journal of Vacuum Science & Technology A, 18(3), 1010, 2000 |
10 |
Stress in densely packed adsorbate layers and stress at the solid-liquid interface - is the stress due to repulsive interactions between the adsorbed species? Ibach H Electrochimica Acta, 45(4-5), 575, 1999 |