CO adsorption on the multiple-site Ru(11(2)over-bar1) surface: The role of bonding competition

被引：18

作者：

Fan, CY ^{[1
]}

Bonzel, HP ^{[1
]}

Jacobi, K ^{[1
]}

机构：

[1] Max Planck Gesell, Fritz Haber Inst, D-14195 Berlin, Germany

来源：

JOURNAL OF CHEMICAL PHYSICS | 2003年 / 118卷 / 21期

关键词：

D O I：

10.1063/1.1570392

中图分类号：

O64 [物理化学（理论化学）、化学物理学];

学科分类号：

070304 ; 081704 ;

摘要：

The chemisorption and dissociation of CO on Ru(11 (2) over bar1) were investigated by using high-resolution electron energy-loss spectroscopy and thermal desorption spectroscopy. Three different adsorption states of CO can be distinguished. The most strongly bound beta-state, characterized by a C-O stretch frequency of 166 meV, is attributed to CO adsorbed in a fourfold hollow site of the Ru(11 (2) over bar1) unit cell. This state occurs only at low total coverage and dissociates at T>300 K. A more weakly bound state is alpha(1)-CO with a stretch frequency of 240-255 meV, attributed to CO on-top bonded to first and second layer Ru atoms. This species converts to beta-CO at moderate total coverage and T>360 K, increasing the amount of dissociated CO. The alpha(1)-CO species dominates the coverage regime up to 1.5 ML. The alpha(2)-CO species is most weakly bound in the coverage range up to 2 ML and is characterized by a stretch frequency of 220 meV. It is proposed to be located in twofold bridge sites. The ratio of on-top to bridge bonded CO is equal to three at saturation. The finite existence range for beta-CO is rationalized by a bond competition effect, due to neighboring alpha(1)-CO species destabilizing the beta-state at increasing coverage. Consequently beta-CO converts to alpha(1)-CO under these conditions. A decrease of the beta-state coverage via dissociation of CO may initiate the reverse process of alpha(1)- to beta-CO conversion. (C) 2003 American Institute of Physics.

引用

页码：9773 / 9782

页数：10

共 50 条

[1]

[Anonymous], CHEM PHYSICS SOLID S

[2] THE CHEMISORPTION OF CARBON-MONOXIDE ON NI(110) STUDIED BY ELECTRON-ENERGY LOSS SPECTROSCOPY [J].

BANDY, BJ ;

CHESTERS, MA ;

HOLLINS, P ;

PRITCHARD, J ;

SHEPPARD, N .

JOURNAL OF MOLECULAR STRUCTURE, 1982, 80 (1-4) :203-208

[3] TILTED CO CHEMISORBED ON PT (110) [J].

BARE, SR ;

HOFMANN, P ;

KING, DA .

VACUUM, 1981, 31 (10-1) :463-465

[4] THE ADSORPTION, INTERCONVERSION, AND DISSOCIATION OF CO ON FE(111) [J].

BARTOSCH, CE ;

WHITMAN, LJ ;

HO, W .

JOURNAL OF CHEMICAL PHYSICS, 1986, 85 (02) :1052-1060

[5] A TENSOR LEED ANALYSIS OF THE RH(110)-P2MG(2X1)-2CO STRUCTURE [J].

BATTEAS, JD ;

BARBIERI, A ;

STARKEY, EK ;

VANHOVE, MA ;

SOMORJAI, GA .

SURFACE SCIENCE, 1994, 313 (03) :341-348

[6] UNUSUALLY LOW STRETCHING FREQUENCY FOR CO ADSORBED ON FE(100) [J].

BENNDORF, C ;

KRUGER, B ;

THIEME, F .

SURFACE SCIENCE, 1985, 163 (01) :L675-L680

[7] SYNCHROTRON RADIATION STUDY OF CHEMISORPTIVE BONDING OF CO ON TRANSITION-METALS - POLARIZATION EFFECT ON IR(100) [J].

BRODEN, G ;

RHODIN, TN ;

BRUCKER, C ;

BENBOW, R ;

HURYCH, Z .

SURFACE SCIENCE, 1976, 59 (02) :593-611

[8] A STUDY OF PI-BONDED CO ON FE(100) [J].

CAMERON, SD ;

DWYER, DJ .

LANGMUIR, 1988, 4 (02) :282-288

[9] THE ROOM-TEMPERATURE ADSORPTION OF OXYGEN, HYDROGEN AND CARBON-MONOXIDE ON (1120) RUTHENIUM - AN ELLIPSOMETRY-LEED CHARACTERIZATION [J].

CARROLL, JJ ;

MADEY, TE ;

MELMED, AJ ;

SANDSTROM, DR .

SURFACE SCIENCE, 1980, 96 (1-3) :508-528

[10] DIRECT VIBRATIONAL DETECTION OF SURFACE-REACTION CHANNELS LEADING TO CO DISSOCIATION AND TO ITS INHIBITION ON MO(110) [J].

CHEN, JG ;

COLAIANNI, ML ;

WEINBERG, WH ;

YATES, JT .

CHEMICAL PHYSICS LETTERS, 1991, 177 (02) :113-117

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