Materials Reports 2020, Vol. 34 Issue (Z2): 1-5 |
INORGANIC MATERIALS AND CERAMIC MATRIX COMPOSITES |
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Research Progress on Development Status and Trend of Key Materials of Hydrogen Fuel Cells |
SONG Xianzhu, ZHENG Mingyue, XIAO Jinsong, ZHANG Zhen
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China Center for Information Industry Development,Beijing 100846, China |
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Abstract The performance of key materials for hydrogen fuel cells is highly demanding. The method of comparative study was used in this study. The three dimensions of performance requirements, technology development and related key enterprises at home and abroad have been compared and studied for key materials of hydrogen fuel cells.Finally, the development status and existing problems of key materials for hydrogen fuel cells in China are analyzed in detail. Research shows that the key core technologies of related industries in China have low maturity and high dependence on foreign technology and products. China's related industries are seriously lagging behind developed countries and regions such as the United States, Japan and the European Union. A series of recommendations have been put forward to ensure the safety of the industrial chain in related fields and the controllability of key technologies. This study suggests that the government and enterprises should do a good job of capital, policy and talent layout in advance, improve the industrial chain, realize the localization of key core materials, and ensure the rapid and healthy development of China's hydrogen fuel cell industry.
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Published: 08 January 2021
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Fund:This work was financially supported by the National Sharing Platform of Advanced Materials Industry Resources (TC180A6NJ). |
About author:: Xianzhu Song Secretary of the Party Committee of the CCID Research Institute of the Ministry of Industry and Information Technology, a professor-level senior engineer and a senior political engineer. In December 2010, he served as the Deputy Director (director level) of the Department of Raw Materials Industry of the Ministry of Industry and Information Technology. In March 2012, he served as Secretary of the Party Committee of China Center for Information Industry Development. He was once employed as a guest professor by the Party School of Qinghai Provincial Party Committee and a guest professor by the School of Finance and Econo-mics of Qinghai University. He was hired as a director of the Chinese Workerś Ideological and Political Work Research Association. He was awarded the title of Model Worker in Qinghai Province, Outstanding Ideological and Political Worker in National Enterprises, and Outstanding Political Worker in National Chemical Industry.Mingyue Zheng received his Ph.D. degree in materials science and engineering from the University of Science and Technology Beijing (USTB) in Sep. 2015—Jan. 2019. He was appointed to the researcher in the China Center for Information Industry Development. He has published more than 30 journal papers as the first author, applied 4 national invention patents and 4 of them were authorized. In addition, he acquired the award of First Prize of China Nonferrous Metal Industry Science and Technology Award, the Excellent Report Award of China Materials Conference, the Dean Scholarship of Beijing Nonferrous Metals Research Institute, and the nomination award of outstanding doctoral dissertation from University of Science and Technology Beijing and is also a reviewer of several academic journals. His research interests focus on the new material industry planning and strategic research. Research fields also include industry trend research on steel materials, non-ferrous metal materials, rare earth materials, environmental protection materials, new energy materials, building materials, and chemical materials. |
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1 赵奥,左莉,武春友.科技管理研究,2019(9),248. 2 李健,王广策.海洋科学, 2011, 35(7),122. 3 邵志刚,衣宝廉.中国科学院院刊, 2019, 34(4),95. 4 陈柳钦.时代汽车, 2011(9),35. 5 张丽彬,陈晓宁,吴文健,等.农业工程技术(新能源产业), 2011(4),19. 6 刘志祥,钱伟,郭建伟,等.化学进展, 2011, 23(2),487. 7 房鑫.质子交换膜燃料电池发电系统建模及仿真研究.硕士学位论文,青岛大学,2018. 8 Choi W, Enjeti P N, Howze J W. Applied Power Electronics Conference and Exposition-APEC, 2016, 43(2),67. 9 Katsuji S, Yoshitaka M, Toshiyuki I, et al.IEEE Transactions on Power Electronics, 2015,31(2),1692. 10 侯明,衣宝廉.科技导报, 2016, 34(6),52. 11 Liu F, Yi B, Xing D, et al. Journal of Membrane Science, 2003, 212(1), 213. 12 Xing D M, Yi B L, Liu F Q, et al. Fuel Cells, 2005, 5(3), 406. 13 http://www.paper.edu.cn/releasepaper/content/201101-86. 14 Wang D, Xin H L, Hovden R, et al. Nature Materials, 2013, 12(1),81. 15 李静,冯欣,魏子栋.电化学, 2018, 24(6),22. 16 康启平,张国强,张志芸,等.电源技术, 2019, 43(4),179. 17 Markötter H, Haussmann J, Alink R, et al. Electrochemistry Communications, 2013, 34, 22. 18 张智明,胡淞,李昆朋,等.湖南大学学报(自然科学版), 2018, 45(10),35. 19 杨雁晖,柳丽君,郝建强.粘接, 2007, 28(2),46. |
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