Designing the next generation of proton-exchange membrane fuel cells

Kui Jiao^#¹, Jin Xuan^#², Qing Du^#³, Zhiming Bao³, Biao Xie³, Bowen Wang³, Yan Zhao⁴, Linhao Fan³, Huizhi Wang⁴, Zhongjun Hou⁵, Sen Huo⁶, Nigel P Brandon⁷, Yan Yin³, Michael D Guiver^{8

9}

Affiliations

¹ State Key Laboratory of Engines, Tianjin University, Tianjin, China. kjiao@tju.edu.cn.
² Department of Chemical Engineering, Loughborough University, Loughborough, UK.
³ State Key Laboratory of Engines, Tianjin University, Tianjin, China.
⁴ Department of Mechanical Engineering, Imperial College London, London, UK.
⁵ Shanghai Hydrogen Propulsion Technology Co. Ltd, Shanghai, China. hou_zhongjun@shpt.com.
⁶ Shanghai Hydrogen Propulsion Technology Co. Ltd, Shanghai, China.
⁷ Department of Earth Science and Engineering, Imperial College London, London, UK.
⁸ State Key Laboratory of Engines, Tianjin University, Tianjin, China. michael.guiver@outlook.com.
⁹ Collaborative Innovation Center of Chemical Science and Engineering (Tianjin), Tianjin, China. michael.guiver@outlook.com.

^# Contributed equally.

PMID: 34262215
DOI: 10.1038/s41586-021-03482-7

Review

Designing the next generation of proton-exchange membrane fuel cells

Kui Jiao et al. Nature. 2021 Jul.

. 2021 Jul;595(7867):361-369.

doi: 10.1038/s41586-021-03482-7. Epub 2021 Jul 14.

Authors

Affiliations

¹ State Key Laboratory of Engines, Tianjin University, Tianjin, China. kjiao@tju.edu.cn.
² Department of Chemical Engineering, Loughborough University, Loughborough, UK.
³ State Key Laboratory of Engines, Tianjin University, Tianjin, China.
⁴ Department of Mechanical Engineering, Imperial College London, London, UK.
⁵ Shanghai Hydrogen Propulsion Technology Co. Ltd, Shanghai, China. hou_zhongjun@shpt.com.
⁶ Shanghai Hydrogen Propulsion Technology Co. Ltd, Shanghai, China.
⁷ Department of Earth Science and Engineering, Imperial College London, London, UK.
⁸ State Key Laboratory of Engines, Tianjin University, Tianjin, China. michael.guiver@outlook.com.
⁹ Collaborative Innovation Center of Chemical Science and Engineering (Tianjin), Tianjin, China. michael.guiver@outlook.com.

^# Contributed equally.

PMID: 34262215
DOI: 10.1038/s41586-021-03482-7

Abstract

With the rapid growth and development of proton-exchange membrane fuel cell (PEMFC) technology, there has been increasing demand for clean and sustainable global energy applications. Of the many device-level and infrastructure challenges that need to be overcome before wide commercialization can be realized, one of the most critical ones is increasing the PEMFC power density, and ambitious goals have been proposed globally. For example, the short- and long-term power density goals of Japan's New Energy and Industrial Technology Development Organization are 6 kilowatts per litre by 2030 and 9 kilowatts per litre by 2040, respectively. To this end, here we propose technical development directions for next-generation high-power-density PEMFCs. We present the latest ideas for improvements in the membrane electrode assembly and its components with regard to water and thermal management and materials. These concepts are expected to be implemented in next-generation PEMFCs to achieve high power density.

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References

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Designing the next generation of proton-exchange membrane fuel cells

Affiliations

Designing the next generation of proton-exchange membrane fuel cells

Authors

Affiliations

Abstract

References

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LinkOut - more resources

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