Dissociative chemisorption of D2on a Ni13cluster

We present initial results from a theoretical study of the dissociation of Dz on the three most stable high symmetry isomers of Ni,,. The cluster's nearest neighbor distance (NND) was determined by energy minimization using the corrected effective medium theory. The critical D2/Ni13 multidimensional

We report evidence for precursor dynamics in the dissociative chemisorption of Dz on Ni( 100) partially covered by CO. Effcient energy transfer from incident Dz to surface CO and the transient bonding of Dz to CO-modified Ni sites are invoked to explain the significant role played by precursor speci

The London-Eyring-Polanyi-Sato method has been used to study senti-empirically the dissociative chemisorption of 02 on the Ni (100) surface. Several dissociation paths are considered. The path leading to the state of maxinmm binding energy corresponds to dissociation across a top position, the disso

The dissociative chemisorption of molecular D 2 on Ag is reported for the first time. Dissociation on the Ag(111) surface is highly activated with an approximately exponential dependence on the energy of the incident molecules, the initial sticking probability increasing from = 10 -7 at 230 meV to 1