裴一 - 北京师范大学 - 自然科学高等研究院

个人简介

北京师范大学青年英才引进人才。博士毕业于哈尔滨工业大学材料学院(导师：甄良教授、徐成彦教授)，期间于2014年至2016年于美国华盛顿大学进行联合培养(导师：曹国忠教授)。2018年至2022年分别于加拿大滑铁卢大学(合作导师：陈忠伟院士、苏东教授)及香港理工大学(合作导师：郑子剑教授)进行博士后研究，2023年加入北京师范大学珠海校区绿色创新实验室。学习经历 2014.10—2016.05 联合培养华盛顿大学材料科学与工程学院 2012.09—2017.10 博士哈尔滨工业大学材料科学与工程学院 2010.09—2012.07 硕士哈尔滨工业大学材料科学与工程学院 2006.09—2010.07 学士东北大学材料与冶金学院主持、参与的科研项目北京师范大学珠海校区人才引进项目：部分阳离子混排LixTMyO2材料的开发及其离子迁移机制研究 2023.02-2026.02（50万，主持）

研究领域

裴一博士从事碱金属二次电池正极材料研究工作，主要包括：锂/钠离子电池高容量正极材料的开发，水系锌离子电池体系的开发，高能量密度有机/水系双离子电池的开发，电极与电解液界面反应行为等研究工作

近期论文

查看导师最新文章（温馨提示：请注意重名现象，建议点开原文通过作者单位确认）

Pei, Y., Chen, Q., Wang, M.Y., Zhang, P.J., Ren, Q.Y., Qin, J.K., Xiao, P.H., Song, L., Chen, Y., Yin, W., Tong, X., Zhen, L., Wang, P., Xu, C.Y., A medium-entropy transition metal oxide cathode for high-capacity lithium metal batteries, Nature Communications. 2022, 13:6158. Chen, Q.,? Pei, Y.,? Chen, H.W., Song, Y., Zhen, L., Xu, C.Y., Xiao, P.H., Henkelman, G., Highly reversible oxygen redox in layered compounds enabled by surface polyanions. Nature Communications. 2020, 11: 3411. (共同一作) Pei, Y., Chen, Q., Ha, Y., Su, D., Zhou, H., Li, S., Yao, Z.P., Ma, L., Sanders, K.J., Sheng, C.C., Goward, G.R., Gu, L., Yu, A.P., Yang, W.L., Chen, Z.W., Fluorinated Rocksalt Cathode with Ultra-high Active Li Content for Lithium-ion Batteries, Angewandte Chemie-International Edition 2022, 61: e202212471. Pei, Y., Chen, Q., Wang, M.Y., Li, B., Wang, P., Henkelman, G., Zhen, L., Cao, G.Z., Xu, C.Y., Reviving reversible anion redox in 3d-transition-metal Li rich oxides by introducing surface defects. Nano Energy. 2020,71: 104644. Pei, Y., Xu, C.Y., Xiao, Y.C., Chen, Q., Huang, B., Li, B., Li, S., Zhen, L., Cao, G.Z., Phase transition induced synthesis of layered/spinel heterostructure with controlled compositions and electrochemical properties, Advanced Functional Materials. 2017, 27: 1604349. Pei, Y., Chen, Q., Xiao, Y.C., Liu, Li, Xu, C.Y., Zhen, L., Henkelman, G., Cao, G.Z. Understanding phase transitions in the spinel-layered-rock salt system：Criterion for the rational design of LLO/spinel composites. Nano Energy. 2017, 40: 566-575. Pei, Y., Chen, Q., Xu, C.Y., Wang, H.X., Fang, H.T, Zhen, L., Cao, G.Z., Chelate-induce formation of Li2MnSiO4 nanorods as a high capacity cathode material for Li-ion batteries, Journal of Materials Chemistry A. 2016, 4: 9447-9454. Pei,Y., Li, Shuang., Chen, Q., Liang, R.L., Li, M., Gao, R., Ren, D.Z., Deng, Y.P., Jin, H.L., Wang, S., Su, D., Hu, Y.F., Chen, Z.W., Cationic–anionic redox couple gradient to immunize against irreversible processes of Li-rich layered oxides, Journal of Materials Chemistry A. 2021, 9: 2325-2333. Zhang, M.W., Pei, Y., Liang, R.L., Gao, R., Deng, Y.P., Hu, Y.F., Chen, Z.W., Yu, A.P., Ionic interaction-mediated interlayer repulsion force promotes steadily shuttling of Zn2+ ions within VOPO4. Nano Energy. 2022,98: 107268. (共同一作) Wu, W., Liu, M.X., Pei, Y., Li, W.J., Lin, W., Huang, Q.Y., Wang, M., Yang, H.T., Deng, L.B., Yao, L., Zheng, Z.J., Unprecedented Superhigh-rate and Ultrastable Anode for High-power Battery via Cationic Disordering. Advanced Energy Materials. 2022, 12, 2201130. (共同一作)