Accession Number : ADA256659


Title :   Electrostatic-Field Effects on Adsorbate Bonding and Structure at Metal Surfaces: Parallels Between Electrochemical and Vacuum Systems


Descriptive Note : Technical rept.,


Corporate Author : PURDUE UNIV LAFAYETTE IN DEPT OF CHEMISTRY


Personal Author(s) : Weaver, Michael J


Full Text : https://apps.dtic.mil/dtic/tr/fulltext/u2/a256659.pdf


Report Date : Oct 1992


Pagination or Media Count : 33


Abstract : The observed effects of varying the surface potential, and hence the accompanying electrostatic fields, upon adsorbate bonding at ordered monocrystalline metals in electrochemical environments are summarized and discussed in comparison with field effects at related metal-vacuum interfaces for the specific case of carbon monoxide. The dependencies of the C-0 stretching frequency, vco, upon the electrochemical surface potential, E, (and interfacial field) as evaluated for CO adlayers at a fixed coverage, $col and surface binding site are summarized as a function of Oco, the metal substrate, and the double-layer ionic environment, in order to illustrate the virtues of electrochemical systems for exploring such interfacial field effects. The increasing preference for multifold versus terminal CO binding commonly observed towards lower potentials (and at larger negative fields) is also noted. These findings are compared with related field-induced effects observed for metal-CO adlayers in vacuum and also for chargeable metal-carbonyl clusters in solution. Variations in field for the former systems are induced by postdosing dipolar or ionizable coadsorbates, or by applying an external electrostatic field. Some physical differences as well as similarities in the electrostatic fields present for such systems are noted. The vco dependencies observed for the different systems are compared briefly with the predictions of theoretical models which account for potential-dependent surface-adsorbate bonding and interfacial field- induced Stark effects. MONOCRYSTALLINE METALS, METAL-VACUUM INTERFACES.


Descriptors :   *METALS , *VACUUM , *SURFACES , *ADSORBATES , *ELECTROSTATIC FIELDS , *BONDING , FREQUENCY , ENVIRONMENTS , MODELS , LAYERS , ELECTROCHEMISTRY , CARBON , METAL CARBONYLS , MONOXIDES , TERMINALS , ELECTROSTATICS , CARBON MONOXIDE , VARIATIONS , SUBSTRATES , SITES , COMPARISON , INTERFACES , PREDICTIONS , FUNCTIONS


Subject Categories : Inorganic Chemistry
      Physical Chemistry
      Electricity and Magnetism


Distribution Statement : APPROVED FOR PUBLIC RELEASE