One step NaBH_4 reduction of Pt-Ru-Ni catalysts on different types of carbon supports for direct ethanol fuel cells : Synthe sis and characte rization 被引量：4

One step NaBH_4 reduction of Pt-Ru-Ni catalysts on different types of carbon supports for direct ethanol fuel cells: Synthesis and characterization

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摘要 The ternary catalyst Pt75Ru5Ni20 was conducted on various types of carbon supports including functionalized Vulcan XC-72R(f-CB),functionalized multi-walled carbon nanotubes(f-MWCNT),and mesoporous carbon(PC-Zn-succinic)by sodium borohydride chemical reduction method to improve the ethanol electrooxidation reaction(EOR)for direct ethanol fuel cell(DEFC).It was found that the particle size of the metals on f-MWCNT was 5.20 nm with good particle dispersion.The alloy formation of ternary catalyst was confirmed by XRD and more clearly described by SEM element mapping,which was relevant to the efficiency of the catalysts.Moreover,the mechanism of ethanol electrooxidation reaction based on the surface reaction was more understanding.The activity and stability for ethanol electrooxidation reaction(EOR)were investigated using cyclic voltammetry and chronoamperometry,respectively.The highest activity and stability for EOR were observed from Pt75Ru5Ni20/f-MWCNT due to a good metal-carbon interaction.Ru and Ni presented in Pt-Ru-Ni alloy improved the activity and stability of ternary catalysts for EOR.Moreover,the reduction of Pt content in ternary catalyst led to the catalyst cost deduction in DEFC. The ternary catalyst Pt75Ru5Ni20 was conducted on various types of carbon supports including functionalized Vulcan XC-72R（f-CB）,functionalized multi-walled carbon nanotubes（f-MWCNT）,and mesoporous carbon（PC-Zn-succinic） by sodium borohydride chemical reduction method to improve the ethanol electrooxidation reaction（EOR） for direct ethanol fuel cell（DEFC）. It was found that the particle size of the metals on f-MWCNT was 5. 20 nm with good particle dispersion. The alloy formation of ternary catalyst was confirmed by XRD and more clearly described by SEM element mapping,which was relevant to the efficiency of the catalysts. Moreover,the mechanism of ethanol electrooxidation reaction based on the surface reaction was more understanding. The activity and stability for ethanol electrooxidation reaction（EOR） were investigated using cyclic voltammetry and chronoamperometry,respectively. The highest activity and stability for EOR were observed from Pt_（75）Ru_5Ni_（20）/f-MWCNT due to a good metal-carbon interaction. Ru and Ni presented in Pt-Ru-Ni alloy improved the activity and stability of ternary catalysts for EOR. Moreover,the reduction of Pt content in ternary catalyst led to the catalyst cost deduction in DEFC.

作者 Napha Sudachom Chompunuch Warakulwit Chaiwat Prapainainar Thongthai Witoon Paweena Prapainainar

机构地区 National Center of Excellence for Petroleum Center for Advanced Studies in Nanotechnology for Chemical Physical Chemistry Department Department of Chemical Engineering Research and Development Centre for Chemical Engineering Unit Operation and Catalyst Design

出处《燃料化学学报》 EI CAS CSCD 北大核心 2017年第5期596-607,共12页 Journal of Fuel Chemistry and Technology

基金 supported by the Institutional Research Grant(Thailand Research Fund:IRG598004)

关键词 ternary catalyst ethanol electrooxidation reaction multiwall carbon nanotubes mesoporous carbon ternary catalyst ethanol electrooxidation reaction multiwall carbon nanotubes mesoporous carbon

分类号 O643.3 [理学—物理化学]

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