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锡气体扩散电极上电化学还原二氧化碳制甲酸性能的稳定性
引用本文:汪启年,郑璐,程庆宇,梁阿芳,孙晓文,孙庆业.锡气体扩散电极上电化学还原二氧化碳制甲酸性能的稳定性[J].应用化学,2016,33(10):1189-1195.
作者姓名:汪启年  郑璐  程庆宇  梁阿芳  孙晓文  孙庆业
作者单位:安徽大学资源与环境工程学院 合肥 230601
基金项目:国家自然科学基金(41171418)、国家大学生创新训练项目(201510357031)、安徽大学博士科研启动资金项目(J01001965)资助
摘    要:研究了Sn气体扩散电极(SGDE)上电化学还原CO_2制甲酸(ERCF)性能的稳定性。采用X射线衍射(XRD)、扫描电子显微镜(SEM)、X射线能量色散谱(EDX)和活性表面积测试等技术手段分别表征SGDE在电化学还原CO_2制甲酸过程前后的物相结构、表面形貌、元素组成和活性表面积。采用生成甲酸的法拉第效率(fHCOOH)评价SGDE上电化学还原CO_2制甲酸的性能。结果显示,fHCOOH随电解时间的延长急剧地降低,电解时间12 h的fHCOOH((36.6±1.6)%)比电解时间0.5 h时的fHCOOH((78.5±0.1)%)降低了53%。SGDE在12 h电还原反应后,表面沉积了微量Fe,而且Sn含量(质量分数)减少了66%,活性表面积降低了41%。进一步的研究发现,沉积的微量Fe对电化学还原CO_2制甲酸过程基本没有影响,Sn含量和活性表面积的降低可能是SGDE上电化学还原CO_2制甲酸性能降低的主要原因。

关 键 词:电化学还原  二氧化碳  甲酸  锡气体扩散电极  稳定性  
收稿时间:2015-12-30

Stability of Tin Gas Diffusion Electrode for Electrochemical Reduction of Carbon Dioxide to Formic Acid
WANG Qinian,ZHENG Lu,CHENG Qingyu,LIANG Afang,SUN Xiaowen,SUN Qingye.Stability of Tin Gas Diffusion Electrode for Electrochemical Reduction of Carbon Dioxide to Formic Acid[J].Chinese Journal of Applied Chemistry,2016,33(10):1189-1195.
Authors:WANG Qinian  ZHENG Lu  CHENG Qingyu  LIANG Afang  SUN Xiaowen  SUN Qingye
Institution:College of Resources and Environmental Engineering,Anhui University,Hefei 230601,China
Abstract:The stability of Sn gas diffusion electrode(SGDE) for electrochemical reduction of CO2 to formic acid(ERCF) was investigated. The crystal structure, morphology, chemical composition and active surface area of the SGDE were characterized by X-ray diffraction, scanning electron microscopy, energy dispersive X-ray spectroscopy and active surface area measurement, respectively. The Faraday efficiency of formic acid(fHCOOH) was measured in order to evaluate the catalytic performance of ERCF over the SGDE. The results show that fHCOOH decreases sharply with the electrolysis time. The fHCOOH at the electrolysis time of 12 h((36.6±1.6)%) is 53% lower than that at 0.5 h((78.5±0.1)%). After the electrolysis of 12 h, trace Fe is deposited on the surface of the SGDE. In addition, the Sn content(mass fraction) and active surface area of the SGDE are reduced by 66% and 41%, respectively. Further examinations show that the deposition of trace Fe has no effect on ECRF and the degradation of the SGDE can be attributed to the reduction in the Sn content and active surface area.
Keywords:electrochemical reduction  carbon dioxide  tin gas diffusion electrode  formic acid  stability
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