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个人信息

姓名:高昂

学历:博士研究生

职称:副教授

E-mailgaoang@ccnu.edu.cn

 

教育与研究经历

近年来的研究以金属离子电池正极材料为主,结合材料合成与表征、电化学、理论计算和电镜技术,从晶格尺度揭示了与离子存储、输运相关的原子结构演化特征,并结合多种衍射技术实现了电子轨道实空间成像,从轨道尺度阐明电子/空穴分布与结构演化的关联,为高能量密度电极材料的开发提供微观结构基础。目前发表SCI论文40余篇,其中作为第一作者(共同一作)或通讯作者已在Nat. Sustain., Sci. Adv., Nat. Mater., Natl. Sci. Rev., Adv. Energy Mater., Nano Lett.等期刊发表SCI论文20篇。主持国家自然科学基金、博士后科学基金、华中师范大学高层次人才启动经费项目。入选2022年度博士后创新人才支持计划。

2024-05 至今, 副教授, 华中师范大学, 必发bifa在线登录 (课题组长: 郭彦炳)

2022-04 2024-04, 博士后, 清华大学, 材料学院 (合作导师: 谷林)

2019-09 2022-01, 中国科学院物理研究所, 凝聚态物理, 理学博士 (导师: 谷林)

2016-09 2019-07, 北京化工大学, 材料科学与工程, 工学硕士 (导师: 杨儒)

2012-09 2016-07, 北京化工大学, 材料科学与工程, 工学学士

 

研究领域与兴趣

从事电化学、无机非金属材料和凝聚态物理交叉领域的前沿研究:

(1) 高能量密度金属离子电池正极材料结构解析与设计;

(2) 电极材料轨道电子态实空间探测;

(3) 电极材料储能机制的第一性原理研究。

 

承担项目及课题信息

(1) 华中师范大学高层次人才启动经费, 2024-05 2029-05, 主持

(2) 国家自然科学基金委员会, 青年科学基金项目, 52302275, 层状正极材料结构相变的轨道调控, 2024-01 2024-12, 主持

(3) 中国博士后科学基金会, 中国博士后科学基金第73批面上资助, 2023M731863, 富锂锰基正极材料阳离子电荷补偿的轨道研究, 2023-08 2024-08, 主持

(4) 中国博士后科学基金会, 2022年度博士后创新人才支持计划, BX20220166, 晶格-轨道调控助力电池材料结构设计, 2022-04 2024-04, 主持

 

代表性学术成果(Researcher ID: GSD-5447-2022

(1) Ang Gao; Qinghua Zhang; Xinyan Li; Tongtong Shang; Zhexin Tang; Xia Lu; Yanhong Luo; Jiarun Ding; Wang Hay Kan; Huaican Chen; Wen Yin; Xuefeng Wang; Dongdong Xiao; Dong Su; Hong Li; Xiaohui Rong*; Xiqian Yu; Qian Yu; Fanqi Meng; CeWen Nan; Claude Delmas; Liquan Chen; Yong-Sheng Hu*; Lin Gu*; Topologically protected oxygen redox in a layered manganese oxide cathode for sustainable batteries, Nature Sustainability, 2022, 5:214-224 (IF 25.7) 

(2) Ang Gao; Shijie Shen; Tongtong Shang; Yuansheng Shi; Huanhuan Zhang; Weiguang Lin; Shiyu Wang; Ting Lin; Pengxiang Ji; Yichi Wang; Yujie Chen; Botao Yu; Xia Lu; Wenwu Zhong*; Qinghua Zhang*; and Lin Gu*; Van der Waals phase transition investigation towards high-voltage layered cathodes, Science Advances, 2024, In press (IF 11.7)

(3) Xinyan Li; Zhuohui Liu; Ang Gao; Qinghua Zhang*; Hai Zhong; Fanqi Meng; Ting Lin; Shiyu Wang; Dong Su; Kuijuan Jin; Chen Ge*; and Lin Gu*; Ferroelastically protected reversible orthorhombic to monoclinic-like phase transition in ZrO2 nanocrystals, Nature Materials, 2024, https://doi.org/10.1038/s41563-024-01853-9. (IF 37.2) 共同一作

(4) Weiguang Lin, Wei Su, Ting Lin, Shiyu Wang, Jing Chen, Ang Gao*, Yingchun Lyu*, Dongdong Xiao*, Qinghua Zhang, and Lin Gu; New Insight into Bulk Structural Degradation of High-Voltage LiCoO2 at 4.55 V, Nano Letter, 2024, 24(24): 7150–7157 (IF 9.6) 

(5) Ang Gao; Min Li; Nannan Guo; Daping Qiu; Yan Li; Senhao Wang; Xia Lu*; Feng Wang*; Ru Yang*; K-Birnessite Electrode Obtained by Ion Exchange for Potassium-Ion Batteries: Insight into the Concerted Ionic Diffusion and K Storage Mechanism, Advanced Energy Materials, 2019, 9(1):1802739 (IF 24.4)

(6) Ang Gao; Jiannian Xia; Min Li; Xia Lu*; Feng Wang*; Ru Yang*; Water–Solid Interface Engineering Stabilizes K‐Birnessite Cathode, Advanced Functional Materials, 2022, 32(14): 2108267 (IF 18.5)

(7) Ang Gao; Yang Sun; Qinghua Zhang; Jieyun Zheng; Xia Lu*; Evolution of Ni/Li antisites under the phase transition of layered LiNi1/3Co1/3Mn1/3O2 cathode, Journal of Materials Chemistry A, 2020, 8(13): 6337-6348 (IF 10.7) 

(8) Ang Gao; Xinyan Li; Fanqi Meng; Shengnan Guo; Xia Lu; Dong Su; Xuefeng Wang; Qinghua Zhang*; Lin Gu*; In Operando Visualization of Cation Disorder Unravels Voltage Decay in Ni‐Rich Cathodes, Small Methods, 2021, 5(2): 2000730 (IF 10.7)

(9) Ang Gao; Qinghua Zhang*; Zhuohui Liu; Fanqi Meng; Tongtong Shang; Hao Ni; Heyi Huang; Jianyu Du; Xinyan Li; Botao Yu; Dong Su; Kuijuan Jin; Chen Ge; Yanzhou Ji; Bo Wang; Qian Yu*; Ze Zhang; Longqing Chen*; Lin Gu*; Cewen Nan; Orbital elasticity control of phase diagram for La0.67Sr0.33MnO3 films, SCIENCE CHINA Materials, 2024, 67, 619–628. (IF 6.8)

(10) Ang Gao; Xinyan Li; Qinghua Zhang*; Yingchun Lyu; Zhexin Tang; Tongtong Shang; Fanqi Meng; Yanhong Luo; Pengxiang Ji; Xuefeng Wang; Dongdong Xiao; Dong Su; Yong‐Sheng Hu; Hong Li; Zhen Chen; Lin Gu*; Critical intermediate β‐Li2NiO3 phase for structural degradation of Ni‐rich layered cathodes during thermal runaway, Battery Energy, 2023, 2(1): 20220036 (IF 9)

 

欢迎具有物理、材料以及化学等学科背景的同学联系~