Photoemission studies of inorganic (CO, O, NO) and organic (C2H2, C2H4, C6H6) adsorbates on Ni(111) and surface reactions
Abstract
We describe adsorption studies of serveral inorganic and organic species on single crystal Ni(111) using ultraviolet photoemission spectroscopy (hv = 21.2 eV). Adsorbate orbital ionization energies and line shapes have been measured and surface reactions have been studied. Ionization energies for chemisorbed unsaturated hydrocarbons (C2H2, C2H4, and C6H6) exhibit large surface-induced relaxation shifts (- 1-3 eV) relative to their gas phase counterparts as well as π-orbital bonding shifts (- 0.9-1.5 eV). We estimate these n-d bonding interaction strengths and chemisorption energies using Mulliken’s donor-acceptor theory as described by Grimley for weak chemical bonds and show that an observed surface reaction, i.e. the dehydrogenation of chemisorbed ethylene (C2H4) to chemisorbed acetylene (C2H2) for T≳230 K, becomes exothermic only for the chemisorbed species due to the π-d electron interaction. © 1974 The Japan Society of Applied Physics.