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A Revisit to the Role of Bridge-adsorbed Formate in the Electrocatalytic Oxidation of Formic Acid at Pt Electrodes 被引量:1

重新审视桥式吸附甲酸根在铂电极上电催化氧化甲酸过程中的作用
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摘要 The mechanism and kinetics of electrocatalytic oxidation of formic acid at Pt electrodes is discussed in detail based on previous electrochemical in-situ ATR-FTIRS data [Langmuir 22, 10399 (2006)and Angewa. Chem. Int. Ed. 50, 1159 (2011)]. A kinetic model with formic acid adsorption (and probably the simultaneous C-H bond activation) as the rate determining step, which contributes to the majority of reaction current for formic acid oxi- dation, was proposed for the direct pathway. The model simulates well the IR spectroscopic results obtained under conditions where the poisoning effect of carbon monoxide (CO) is negligible and formic acid concentration is below 0.1 mol/L. The kinetic simulation predicts that in the direct pathway formic acid oxidation probably only needs one Pt atom as active site, formate is the site blocking species instead of being the active intermediate. We review in detail the conclusion that formate pathway (with either 1st or 2nd order reaction kinetics) is the direct pathway, possible origins for the discrepancies are pointed out.
作者 徐杰 梅东 袁道福 张尊彪 刘少雄 陈艳霞
机构地区 中国科学技术大学合肥微尺度物质科学国家实验室
出处 《Chinese Journal of Chemical Physics》 SCIE CAS CSCD 2013年第3期321-328,I0004,共9页 化学物理学报(英文)
基金 This work was supported by one hundred Tal- ents' Program of the Chinese Academy of Science, the National Natural Science Foundation of China (No.21273215), 973 program from the Ministry of Sci- ence and Technology of China (No.2010CB923302).
关键词 Formic acid oxidation Mechanism ELECTROCATALYSIS Formate pathway Directpathway 甲酸氧化 机理 电催化 甲酸根途径 直接途径
分类号 O6 [理学—化学]
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参考文献45

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同被引文献51

  • 1Capon A, Parsons R. Oxidation of formic-acid at noble-metal electrodes. 1. Review of previews work[J]. Journal of Electroanalytical Chemistry, 1973, 44(1): 1-7.
  • 2Feliu J M, Herrero E. Fuel cell electrocatalysis//[M] Vielstich W, Lamm A, Gasteiger H A. (Eds.), Handbook of fuel cells: Fundamentals, technology, applications, chichester. John Wiley and Sons Ltd., 2003: 625.
  • 3Breiter M W. A study of intermediates adsobed on platinized-platinum during steady-state oxidation of methanol formic acid and formaldehyde[J]. Journal of Electroanalytical Chemistry, 1967, 14(4): 407-413.
  • 4Parsons R, VanderNoot T. The oxidation of small organic molecules. A survey of recent fuel cell related research[J]. Journal of Electroanalytical Chemistry, 1988, 257(1/2): 9-45.
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  • 6Jarvi T D, Stuve E M. Fundamental aspects of vacuum and electrocatalytic reactions of methanol and formic acid on platinum surfaces//[C]. Lipkowski J, Ross P N (Eds.), Electrocatalysis, New York: Wiley-VCH, 1998: 75.
  • 7Sun S G. Studying electrocatalytic oxidation of small organic molecules with in-situ infrared spectroscopy//[C]. Lipkowski J, Ross P N (Eds.), Electrocatalysis, New York: Wiley-VCH, 1998: 243-291.
  • 8Hamnett A. Accomplishments and challenges[M]. New York: Marcel Dekker Inc., 1999: 843-883.
  • 9Herrero E, Feliu J. Electrocatalysis: interfacial kinetics and mass transport//[C]. Bard A J, Stratmann M (Eds.), Encyclopedia of Electrochemistry, Weinheim. Germany: Wiley-VCH, 2003: 443-465.
  • 10Waszczuk P, Crown A, Mitrovski S, et al. Electrocatalysis//[C]. Vielstich W, Lamm A, Gasteiger H A. (Eds.), Handbook of fuel cells: Fundamentals, technology, applications, Chichester, UK, John Wiley & Sons, 2003: 635-651.

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Chinese Journal of Chemical Physics
2013年 第3期

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