CO ELECTROOXIDATION ON WELL-CHARACTERIZED PT-RU ALLOYS

被引：765

作者：

GASTEIGER, HA ^{[1
]}

MARKOVIC, N ^{[1
]}

ROSS, PN ^{[1
]}

CAIRNS, EJ ^{[1
]}

机构：

[1] UNIV CALIF BERKELEY, DEPT CHEM ENGN, BERKELEY, CA 94720 USA

来源：

JOURNAL OF PHYSICAL CHEMISTRY | 1994年 / 98卷 / 02期

关键词：

D O I：

10.1021/j100053a042

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 electrocatalytic activity of well-characterized Pt-Ru alloy electrodes toward the electrooxidation of CO in acidic electrolyte at room temperature was measured on alloy surfaces prepared in UHV (ultrahigh vacuum). Clearly defined surface composition was determined via LEIS (low-energy ion scattering). Electrocatalytic activities were measured by CO stripping voltammetry as well as by potentiostatic oxidation of adsorbed CO. It was found that the property of Ru atoms to nucleate oxygen-containing species at low potentials produced a strong enhancement in the catalytic activity of sputter-cleaned Pt-Ru alloy electrodes compared to pure Pt, thereby supporting the concept of the bifunctional character of the oxidation process of these alloys. A further synergistic effect of the alloy with a Ru surface composition of approximate to 50 atom % Ru was observed, with a catalytic shift in the CO electrooxidation current of -0.25 and -0.15 V compared to those of pure Pt and pure Ru surfaces, respectively. This synergism was attributed to a uniquely active state of OHads on Pt-Ru pair sites. The different electrocatalytic activities of sputter-cleaned versus annealed Pt-Ru alloy electrodes with essentially identical Ru surface compositions are discussed in terms of Ru clustering during annealing.

引用

页码：617 / 625

页数：9

共 48 条

[31]

LOVE B, 1988, ACS SYM SER, V378, P484

[32] VOLTAMMETRIC BEHAVIOR OF ELECTROCATALYTIC POISONS FOR THE ELECTRO-OXIDATION OF CARBON-MONOXIDE, FORMIC-ACID, FORMALDEHYDE AND METHANOL ON ELECTRODISPERSED PLATINUM IN ACIDIC SOLUTIONS [J].

LUNA, AMC ;

GIORDANO, MC ;

ARVIA, AJ .

JOURNAL OF ELECTROANALYTICAL CHEMISTRY, 1989, 259 (1-2) :173-187

[33] ADSORPTION OF OXYGEN AND OXIDATION OF CO ON RUTHENIUM (001) SURFACE [J].

MADEY, TE ;

ENGELHARDT, HA ;

MENZEL, D .

SURFACE SCIENCE, 1975, 48 (02) :304-328

[34] THE EFFECTS OF ANIONS ON HYDROGEN ELECTROSORPTION ON PLATINUM SINGLE-CRYSTAL ELECTRODES [J].

MARKOVIC, N ;

HANSON, M ;

MCDOUGALL, G ;

YEAGER, E .

JOURNAL OF ELECTROANALYTICAL CHEMISTRY, 1986, 214 (1-2) :555-566

[35]

MCKEE DW, 1968, ELECTROCHEM TECHNOL, V6, P101

[36] ADSORPTION POSITION OF OXYGEN ON THE PT(111) SURFACE [J].

MORTENSEN, K ;

KLINK, C ;

JENSEN, F ;

BESENBACHER, F ;

STENSGAARD, I .

SURFACE SCIENCE, 1989, 220 (2-3) :L701-L708

[37]

NIEDRACH LW, 1967, ELECTROCHEM TECHNOL, V5, P318

[38] SURFACE ELECTROCHEMISTRY OF CARBON-MONOXIDE ADSORBED FROM ELECTROLYTIC SOLUTIONS AT SINGLE-CRYSTAL SURFACES OF PT(111) AND PT(100) [J].

PALAIKIS, L ;

ZURAWSKI, D ;

HOURANI, M ;

WIECKOWSKI, A .

SURFACE SCIENCE, 1988, 199 (1-2) :183-198

[39] BEHAVIOUR OF PLATINIZED-PLATINUM AND PLATINUM-RUTHENIUM ELECTRODES IN METHANOL SOLUTIONS [J].

PETRY, OA ;

PODLOVCHENKO, BI ;

FRUMKIN, AN ;

LAL, H .

JOURNAL OF ELECTROANALYTICAL CHEMISTRY, 1965, 10 (04) :253-+

[40] OXYGEN INDUCED RECONSTRUCTION OF A CLOSE-PACKED SURFACE - A LEED-IV STUDY ON RU(001)-P(2X1)O [J].

PFNUR, H ;

HELD, G ;

LINDROOS, M ;

MENZEL, D .

SURFACE SCIENCE, 1989, 220 (01) :43-58

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