化工进展
化工進展
화공진전
CHEMICAL INDUSTRY AND ENGINEERING PROGRESS
2014年
1期
56-63
,共8页
交流阻抗技术%电极%材料%质子交换膜燃料电池
交流阻抗技術%電極%材料%質子交換膜燃料電池
교류조항기술%전겁%재료%질자교환막연료전지
electrochemical impedance spectroscopy(EIS)%electrode%material%proton exchange membrane fuel cell(PEMFC)
质子交换膜燃料电池(PEMFC)具有低温、高效、零排放等特点,是有效解决环境污染和能源危机的发电装置,然而其内在电化学、传输机理不明确限制了其发展。交流阻抗技术(EIS)作为研究电极过程动力学和表面现象的重要手段,应用在PEMFC上受到高度重视。本文概括介绍了EIS的应用原理以及对于PEMFC的测量方式,并重点结合电池电极中典型的阻抗谱解析,总结了近来 EIS 在电池和材料两个方面的研究进展,从原位极化分析、材料性能评估及反应机理剖析等几个方面予以深入,详细分析了各阻抗元件参数对电池和材料改进的指导作用,进而展望了 EIS 在燃料电池上的应用前景,指出除了采用等效电路加以分析以外,结合数学模型推导将更加完美呈现出阻抗谱数据的特点。
質子交換膜燃料電池(PEMFC)具有低溫、高效、零排放等特點,是有效解決環境汙染和能源危機的髮電裝置,然而其內在電化學、傳輸機理不明確限製瞭其髮展。交流阻抗技術(EIS)作為研究電極過程動力學和錶麵現象的重要手段,應用在PEMFC上受到高度重視。本文概括介紹瞭EIS的應用原理以及對于PEMFC的測量方式,併重點結閤電池電極中典型的阻抗譜解析,總結瞭近來 EIS 在電池和材料兩箇方麵的研究進展,從原位極化分析、材料性能評估及反應機理剖析等幾箇方麵予以深入,詳細分析瞭各阻抗元件參數對電池和材料改進的指導作用,進而展望瞭 EIS 在燃料電池上的應用前景,指齣除瞭採用等效電路加以分析以外,結閤數學模型推導將更加完美呈現齣阻抗譜數據的特點。
질자교환막연료전지(PEMFC)구유저온、고효、령배방등특점,시유효해결배경오염화능원위궤적발전장치,연이기내재전화학、전수궤리불명학한제료기발전。교류조항기술(EIS)작위연구전겁과정동역학화표면현상적중요수단,응용재PEMFC상수도고도중시。본문개괄개소료EIS적응용원리이급대우PEMFC적측량방식,병중점결합전지전겁중전형적조항보해석,총결료근래 EIS 재전지화재료량개방면적연구진전,종원위겁화분석、재료성능평고급반응궤리부석등궤개방면여이심입,상세분석료각조항원건삼수대전지화재료개진적지도작용,진이전망료 EIS 재연료전지상적응용전경,지출제료채용등효전로가이분석이외,결합수학모형추도장경가완미정현출조항보수거적특점。
With the advantages of low temperature,high-efficiency and zero-emission,the proton exchange membrane fuel cell (PEMFC) as a generator device,has been considered to solve the crucial issues in environment and energy. However,the unclear electrochemical and transfer mechanisms for PEMFC inhibit its developments significantly. Electrochemical impedance spectroscopy (EIS) is regarded as an important tool to clarify the electrode dynamics and surface adsorption. To review the recent EIS application on PEMFC systems and key materials,this paper generally introduces the application mechanism of EIS and the measurement for PEMFC,and penetrates into its in situ polarizations,materials evaluations and the reaction mechanisms with typical impedance spectrum analysis to analyze the significance of impedance element parameters on the improvement of the battery and material. Further the prospect of EIS application to PEMFC is also presented. In order to analyze the data of impedance spectrum in detail,it is better to combine equivalent circuit fitting with mathematical model simulation.
