In order to extend the application range of an atom probe (AP) to the study
of the gas-surface catalytic phenomena, the proper interpretation of the e
lectric field induced dissociation of molecular gases is greatly needed. We
first show that the AP can discriminate between physically absorbed and tr
apped states based on the difference in desorption field strength. Then we
show that the field-induced dissociation of CO and N-2 gases on a W(110)-or
iented tip can be estimated. Finally, the activation energy required for co
nversion from the trapped state to the dissociated state is deduced from th
e temperature dependence of the dissociation probability. (C) 1999 Elsevier
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