基本信息 姓名:邱吴劼 职称:副研究员 办公室:15号楼207室 邮箱:wjqiu@sspu.edu.cn 个人简介🍿: 邱吴劼,理学博士👩🏻🦯➡️,副研究员👨💼🤌🏽,硕士生导师,入选东方英才计划青年项目(原上海青年拔尖人才)🥖。现任杏悦物理系主任🙄,九三学社上海分院青工委委员🔻。围绕人工智能与计算电化学方法开发🍜,开展高性能锂离子电池材料设计与储能机制研究🐮。主导开发了“高通量计算与人工智能材料研发平台”(DDMP🍽♋️,软著登字第6149316号)♊️→,实现电池材料电化学性能和新结构设计的全流程自动化计算与人工智能分析。在PNAS、Joule、Advanced Materials等物理、化学、材料类SCI期刊发表论文60篇,总被引2000次,H因子21。以一作、共一、通讯作者身份发表论文22篇👩🏿🎨👽,长期担任npj Compu. Mater.、J. Eletrochem. Soc.🪠、中国科学等国内外知名期刊审稿人👩🏻🔧。 每年招收硕士研究生2-4名,具有物理🦈🍑、化学、材料(无机非方向)或计算机(人工智能方向)背景🧑🏿🚀,懂python优先考虑。 教育背景: 2012年9月至2016年6月,中国科杏悦上海硅酸盐研究所 材料物理与化学 联合培养 2011年9月至2016年6月,华东师范大学 理论物理 博士学位 2007年9月至2011年8月,杭州师范大学 应用物理学 学士学位 工作经历⛽️: 2024.01至今,杏悦娱乐🥡,杏悦娱乐开户,副研究员 2018.08至2023.12🔕,中国科杏悦上海硅酸盐研究所,国家重点实验室,助理研究员🫱🏽、副研究员 2016.07至2018.08🌕,中国科杏悦上海硅酸盐研究所🫘,国家重点实验室,博士后 研究方向: 计算电化学与材料设计 主讲课程🌍: 《大学物理》、《大学物理实验》、《量子力学》、《应用物理专业导论》 主要科研项目👨🏻🦽➡️: 2025年,主持,在研🛋,AI赋能科研计划校内培育项目 2025年,主持🫠,在研🏂🏿,关键陶瓷材料重点实验室开放课题基金 2024年,主持🍅,在研,东方英才计划青年项目 2023年,主持🦋👨🏼🎨,在研,上海市探索者计划(第一批) 2022年👲,主持,结题,国家重点实验室主任基金 2022年▫️🙋🏼♂️,主持🈂️,结题,中国航发商用航空发动机有限责任公司横向项目 2021年🧜♀️,主持,结题,中科院前瞻培育计划 2020年🐝,主持🧩,结题🥳,中国科杏悦上海硅酸盐研究所所创新项目 2020年,主持,结题💕,中国科杏悦上海硅酸盐研究所产业化创新项目 2019年,主持,结题,中国科杏悦上海硅酸盐研究所实验室开放课题项目 2019年🐟,主持,结题,国家自然科学基金青年基金 2021年,参与🎊,在研🧞,国家自然科学基金重点项目 2020年,参与🧙🏽,结题👦,上海市优秀学术带头人 2019年,参与🤦🏼♀️,结题,国家自然科学基金面上项目 2019年👏🏿,参与,结题,国家自然科学基金面上项目 社会或学术兼职🧜: 九三学社上海分院青工委委员 个人荣誉⛹🏽♂️👶: 2024.12:上海市东方英才计划青年项目(原上海青年拔尖人才) 2023.12𓀒:九三学社中科院上海分院委员会,社会服务先进个人 2023.01🏋🏼♂️:九三学社中科院上海分院委员会👊🏿,信息工作先进个人 2022.01:中国科杏悦上海硅酸盐研究所 ,优秀个人 2016.05:International Thermoelectric Society🕵️,Graduate Student Award 代表性论著: https://www.webofscience.com/wos/author/record/H-1067-2014 n 一区: [1] Qinwen Cui, Yi Li, Yining Li, Wujie Qiu*, and Jianjun Liu*. Structural design principle of rocksalt oxides for Li-excess cathode materials. ACS Nano, 18, 2302-2311 (2024). [2] Keyi Chen#, Wujie Qiu#, Meng Lei, Chuanzhong Lai, Jianjun Liu, and Chilin Li*. Manipulating cation-anion coordination in fire-retardant electrolytes to enable high-areal-capacity fluoride conversion batteries. Matter, 7, 3907-3931 (2024). [3] Zhuang Sun#, Xiaohui Zhao#, Wujie Qiu#, Bin Sun, Fan Bai, Jianjun Liu*, and Tao Zhang*. Unlock restricted capacity via O-Ce hybridization for Li-oxygen batteries. Adv. Mater., 35, 2210867 (2023). [4] Haoxin Li, Yining Li, Xiaolin Zhao, Yang Gan, Wujie Qiu*, and Jianjun Liu*. Enhancing anionic redox stability by oxygen coordination configurations. Mater. Horiz., 10, 3729-3739 (2023). [5] Yongjian Zheng#, Wujie Qiu#, Lei Wang, Jianjun Liu, Shuangqiang Chen*, and Chilin Li*. Triple conductive wiring by electron doping, chelation coating and electrochemical conversion in fluffy Nb2O5 anodes for fast-charging Li-ion batteries. Adv. Sci., 9, 2202201 (2022). [6] Kunpeng Zhao#, Chenxi Zhu#, Wujie Qiu#, Shiqi Yang, Hong Su, Pengfei Qiu, Ying He, Mengjia Guan, Tianran Wei, Jie Ma, Jue Liu, Guanhaojie Zheng, Fangfang Xu*, Xun Shi*, Jian He*, and Lidong Chen*. Novel meta-phase arising from large atomic size mismatch. Matter, 5, 605-615 (2022). [7] Zhuang Sun#, Xiaohui Zhao#, Wujie Qiu#, Chushu Yang, Osamu Yamamoto, Nobuyuki Imanishi, Jianjun Liu*, and Tao Zhang*. Partial disproportionation gallium-oxygen reaction boosts lithium-oxygen batteries. Energy Storage Mater., 41, 475-484 (2021). [8] Wujie Qiu, Tiantian Wang, Youwei Wang, Xuejun Zhou, Chilin Li, and Jianjun Liu*. Predicting Li-rich layered oxide compounds as high-conductivity and stable solid electrolytes. ACS Energy Lett., 6, 3793-3800 (2021). [9] Yining Li, Xiaolin Zhao, Qisheng Bao, Mengnan Cui, Wujie Qiu*, and Jianjun Liu*. How inactive d0 transition metal controls anionic redox in disordered Li-rich oxyfluoride cathodes. Energy Storage Mater., 32, 253-260 (2020). [10]Wujie Qiu, Xuezhi Ke*, Lili Xi, Lihua Wu, Jiong Yang, and Wenqing Zhang*. “Phonon” scattering beyond perturbation theory. Sci. China-Phys. Mech. Astron., 59, 627001 (2016). [11]Wujie Qiu, Lili Xi, Ping Wei, Xuezhi Ke*, Jihui Yang*, and Wenqing Zhang*. Part-crystalline part-liquid state and rattling-like thermal damping in materials with chemical-bond hierarchy. Proc. Natl. Acad. Sci. U. S. A., 111, 15031-15035 (2014). n 二区🏠: [12]Nian Ran, Liang Yin, Wujie Qiu*, and Jianjun Liu*. Recent advances in machine learning interatomic potentials for cross-scale computational simulation of materials. Sci. China Mater., 67, 1082-1100 (2024). [13]Xingyu Li, Ruguang Ma, Yang Gan, Yi Li, Wujie Qiu*, Jifen Wang*, and Jianjun Liu*. Enhancing the reversible capacity and cycling stability of sodium cathode materials by Li+ reversible migration. J. Mater. Chem. A, 12, 2786-2795 (2024). [14]Wujie Qiu, Youwei Wang*, and Jianjun Liu*. Multiscale computations and artificial intelligent models of electrochemical performance in Li-ion battery materials. Wiley Interdiscip. Rev.: Comput. Mol. Sci., 12, e1592 (2022). [15]Haoxin Li, Xiaolin Zhao, Yining Li, Yang Gan, Wujie Qiu*, Jifen Wang*, and Jianjun Liu*. Alkaline-earth metal substitution stabilizes the anionic redox of Li-rich oxides. J. Mater. Chem. A, 9, 10364-10373 (2021). [16]Haoxin Li, Yining Li, Xiaolin Zhao, Youwei Wang, Kexian Huang, Wujie Qiu*, Jifen Wang*, and Jianjun Liu*. Vacancy-induced anion and cation redox chemistry in cation-deficient F-doped anatase TiO2. J. Mater. Chem. A, 8, 20393-20401 (2020). [17]Wujie Qiu#, Zuosheng Li#, Keyi Chen#, Chilin Li*, Jianjun Liu*, and Wenqing Zhang. Stabilizing low-coordinated O ions to operate cationic and anionic redox chemistry of Li-ion battery materials. ACS Appl. Mater. Interfaces, 11, 37768-37778 (2019). [18]Wujie Qiu, Ping Lu, Xun Yuan, Fangfang Xu, Lihua Wu, Xuezhi Ke*, Huili Liu, Jiong Yang, Xun Shi, Lidong Chen, Jihui Yang*, and Wenqing Zhang*. Structure Family and Polymorphous Phase Transition in the Compounds with Soft Sublattice: Cu2Se as An Example. J. Chem. Phys., 144, 194502 (2016). [19]Wujie Qiu#, Lihua Wu#, Xuezhi Ke*, Jihui Yang*, and Wenqing Zhang*. Diverse lattice dynamics in ternary Cu-Sb-Se compounds. Sci. Rep., 5, 13643 (2015). n 三区🤸🏽♂️👷🏽♂️: [20]Ziyan Liao, Yi Li, Xinyi Yang, Xingyu Li, Jianjun Liu, Wensheng Fu*, Wujie Qiu*, and Xiaolin Zhao*. Revealing the mechanism of Mg-Cu heterolayer doping on Ni/Li migration dynamics for NCM811 cathode. J. Phys. Chem. C, 128, 10308-10316 (2024). [21]Hanwen Hu, Wujie Qiu*, and Jifen Wang*. Exploring the thermal and optical characteristics of Ti3C2 MXene for enhanced photothermal conversion. Comput. Theor. Chem., 1241, 114903 (2024). [22]Qidong Liu, Haoxin Li, Yining Li, Wujie Qiu*, and Jifen Wang*. Ni migration arising from inter-transition metal charge transfer in the NCM811 system. J. Phys. Chem. C, 127, 10853-10860 (2023).