葛君杰


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姓  名:

葛君杰

地  址:

中国科学技术大学环境与资源楼638a

邮  编:

230026

邮  箱:




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 目前研究方向

本课题组聚焦氢能源与燃料电池相关研究,内容包括基础电化学、催化剂结构创制与构效关系、机理与动力学、关键材料与核心部件。


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 代表性论文

1.

proton exchange membrane fuel cells powered with both co and h2proceedings of the national academy of sciences(pnas), 2021,118 (43)e2107332118,xian wang, yang li , ying wang , hao zhang , zhao jin, xiaolong yang , zhaoping shi, liang liang , zhijian wu , zheng jiang, wei zhang , changpeng liu, wei xing. junjie ge*.

2.

enhanced acidic water oxidation by dynamic migration of oxygen species at the ir/nb2o5-x catalyst/support interfaces, angew. chem. int. ed., 2022, doi: 10.1002/anie.202212341, zhaoping shi, ji li, jiadong jiang, yibo wang, xian wang, yang li, liting yang, yuyi chu, jingsen bai, jiahao yang, jing ni, ying wang,* lijuan zhang, zheng jiang,* changpeng liu, junjie ge,* wei xing*

3.

confined ir single sites with triggered lattice oxygen redox: toward boosted and sustained water oxidation catalysis joule. 2021, 5(8): 2164-2176. zhaoping shi.ying wang. li ji. xian wang.yibo wang.yang li. weilin xu. jiang, zheng. changpeng liu.wei xing. junjie ge*.

4.

pyrolyzed m-n-x catalysts for oxygen reduction reaction: progress and prospects energ environ sci. 2021, 14(4): 2158-2185. ergui luo.yuyi chu.jie liu.zhaoping shi.siyuan zhu.liyuan gong. junjie ge*. choi, chang hyuck*.changpeng liu*.wei xing*.

5.

engineering energy level of metal center: ru single-atom site for efficient and durable oxygen reduction catalysis,j am chem soc. 2019, 141: 19800-19806. meiling xiao. liqin gao. ying wang. xian wang. jianbing zhu. zhao jin. changpeng liu. chen, hengquan. li, gaoran. junjie ge*. he, qinggang*. zhijian wu. chen, zhongwei*. wei xing*.

6.

climbing the apex of the orr volcano plot via binuclear site construction: electronic and geometric engineering,j am chem soc. 2019, 141(44): 17763-17770. meiling xiao. chen, yongting. jianbing zhu. zhang, hao. xiao zhao. liqin gao. xian wang. zhao, jin. junjie ge*. jiang, zheng*. chen, shengli*. changpeng liu. wei xing*.

7.

bridge bonded oxygen ligands between approximated fen4 sites confer catalysts with high orr performance,angew chem int edit. 2020, 59(33): 13923-13928. liyuan gong①. zhang, hao①. ying wang①. ergui luo. kui li. liqin gao. yuemin wang. zhijian wu. zhao jin. junjie ge*. jiang, zheng*. changpeng liu*. wei xing*.

8.

single-atom cr@n4 sites designed for durable oxygen reduction catalysis in acid media,angew chem int edit. 2019, 58: 12469-12475. ergui luo. zhang, hao. xian wang. liqin gao. liyuan gong. tuo zhao. zhao jin. junjie ge*. jiang, zheng*. changpeng liu*. wei xing*.

9.

reactant friendly hydrogen evolution interface based on di-anionic mos2 surface nat commun. 2020, 11(1): 1116. zhaoyan luo. zhang, hao. yang, yuqi. xian wang. yang li. zhao jin. jiang, zheng*. changpeng liu. wei xing. junjie ge*.

10.

chemically activating mos2 via spontaneous atomic palladium interfacial doping towards efficient hydrogen evolution,nat commun. 2018, 9: 2120. zhaoyan luo. ouyang, yixin. zhang, hao. meiling xiao. junjie ge*. jiang, zheng*. wang, jinlan*. tang, daiming. cao, xinzhong. changpeng liu. wei xing*.


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