储能材料与电池技术研究课题组
刘金云 博士、教授、博士生导师
jyliu@ahnu.edu.cn
安徽师范大学花津校区
个人简介:
安徽师范大学化学与材料科学学院教授,博士生导师,安徽省引进海外归国优秀人才项目入选者,安徽省首批科技副总入选者,安徽省新能源汽车电池储能材料工程实验室副主任,芜湖市储能与动力电池公共研发平台负责人等,研究方向为储能材料与电池技术。2010年博士毕业于中科院合肥物质科学研究院,曾在美国伊利诺伊大学香槟分校做博士后开展电池材料研究。曾主持或在研国家自然科学基金、教育部联合基金、安徽省科技重大专项、安徽省重大科技攻关“揭榜挂帅”项目子课题、安徽省高校自然科学研究项目重大项目等,负责多项企业委托研发项目。发表第一作者或通讯作者SCI论文160多篇,包括Advanced Materials、ACS Nano、Nano Letters、Energy Storage Materials等期刊;获授权美国专利1项和中国发明专利40余项;在科学出版社出版《电化学储能材料》学术专著1本,已作为多所高校教材使用,合作撰写《Electrochemical Energy Storage Technologies Beyond Li-Ion Batteries》在Elsevier出版社出版;曾获得中国分析测试学会青年科技奖,新型动力电池研究成果入选“安徽创新馆”常态化展览,带领团队获得2021“互联网+”创新创业大赛安徽省一等奖、2022“挑战杯”创业计划竞赛安徽省总决赛金奖、2023“挑战杯”竞赛黑科技专项赛道国赛一等奖和安徽省特等奖、2024中国大学生创新大赛安徽省金奖等。
------------------------------------------------------------
主要研究方向:
• 储能纳米材料与制备技术
• 自修复锂电池技术
• 高性能可充电电池(包括全固态电池、半固态电池等)
------------------------------------------------------------
近五年代表性的研究论文(时间倒序):
1) Huizi Songtian, Ting Zhou, Fan Zhou, Yajun Zhu, Xulai Yang*, Tianli Han*, Jinjin Li*, Jinyun Liu*. Designing mesostructured bimetallic selenide derived from room-temperature prepared metal organic frameworks as sodium-ion battery anode with high performances and fast reaction kinetics. Chemical Science, 2025, 16, 16712-16718.
2) Shenglan Li, Tianli Han, Ting Zhou, Xiaofei Huang, Huigang Zhang*, Jinyun Liu*. A ZnSe/Bi2Se3 heterostructure as sodium-ion battery anode displaying fast reaction kinetics, high capacity, and good full cell performance. Chemical Communications, 2025, 61, 13173-13176.
3) Xiaofei Huang, Yunmiao Fan, Jiatong Li, Tianli Han, Yajun Zhu, Shanshan Yang, Jinhu Yang*, Huigang Zhang*, Jinyun Liu*. Engineering a sulfur vacancies-rich binary sulfides@carbon heterostructure displaying fast reaction kinetics in high-performance secondary battery. ACS Applied Materials & Interfaces, 2025, 17, 42052-42065.
4) Jinyun Liu*, Jiamin Liu, Ting Zhou, Xiaofei Huang, Yajun Zhu, Haojun Xu, Tianli Han. A high-performance magnesium/lithium hybrid-ion battery using NiS2 nanosheets-coated Cu2S cubes as cathode material. ACS Applied Materials & Interfaces, 2025, 17, 38041-38049.
5) Jinyun Liu*, Hui Zhang, Kehao Tao, Yajun Zhu, Shenglan Li, Yongmei Hua, Huizi Songtian, Tianli Han, Jinjin Li*. Engineering iron sulfide/carbon co-coated silicon nanoparticles as lithium-ion battery anode displaying stable capacity and rate-performance. Chemical Communications, 2025, 61, 7438-7441.
6) Ting Zhou, Yajun Zhu, Xiaofei Huang, Tianli Han, Jinyun Liu*. High-performance rechargeable monovalent- and bivalent-ion batteries: From emerging nanomaterials to mechanism insights. Chemical Communications, 2025, 61, 7035-7056.
7) Yajun Zhu, Hui Zhang, Xiangbing Zeng, Tianli Han, Meizhou Qi, Wentuan Bi*, Jinyun Liu*. Engineering a dual-porous Li-rich carbon coated Si/SiOx nanosphere as high-performance Li-ion battery anode. Chemical Communications, 2025, 61, 3564-3567.
8) Jing Xu, Kehao Tao, Yajun Zhu, Ting Zhou, Xiaofei Huang, Jinjin Li*, Jinyun Liu*. Graphene quantum dots-modified Co3O4/NiCo2O4 yolk-shell polyhedrons as polysulfides-adsorptive sulfur host for lithium-sulfur batteries. Chemical Communications, 2025, 61, 2345-2348.
9) Zhen Peng#, Ting Zhou#, Zicong Yan, Zhongbing Li, Hang Su, Fei Wang, Jinjin Li*, Jinyun Liu*. A high-capacity and stable rate-performance Li-ion battery anode based on hierarchical microcakes with in-situ grown nanoflakes. Dalton Transactions, 2025, 54, 16121–16127.
10) Jiamin Liu, Ting Zhou, Yun Shen, Peng Zuo, Hui Qiu, Yajun Zhu, Jinyun Liu*. Engineering a high-capacity and long-cycle life magnesium/lithium hybrid-ion battery using a lamellar SnSe2/SnSe/SnO2 cathode. Chemical Communications, 2024, 60, 13079-13082.
11) Jiawei Long, Tianli Han, Xiangbing Zeng, Chengbing Chen, Peng Zhan, Huigang Zhang*, Jinyun Liu*. Rationally engineering a quasi-solid-state flexible self-healing secondary battery using hydrogel-based water-in-salt electrolyte and electrochemically deposited electrodes. Nano Letters, 2024, 24, 11429-11437.
12) Hui Zhang, Kehao Tao, Xiangbing Zeng, Chengbing Chen, Yajun Zhu, Tianli Han, Jinjin Li*, Jinyun Liu*. Rationally engineering a binary SnS0.5Se0.5/carbon nest-coated Si nanosphere for high-performance lithium-ion battery anode. Chemical Science, 2024, 15, 15769-15775.
13) Jiamin Liu, Ting Zhou, Yun Shen, Lixing Li, Yajun Zhu, Jinyun Liu*. A high-performance magnesium/lithium hybrid-ion battery using hollow multi-layered NiS/Co3S4/carbon cathode and all-phenyl complex-based electrolyte. Chemical Communications, 2024, 60, 8123-8126.
14) Jiawei Long, Tianli Han, Xirong Lin, Yajun Zhu, Jinyun Liu*, Junjie Niu*. A quasi-solid-state self-healing flexible zinc-ion battery using a dual-crosslinked hybrid hydrogel as the electrolyte and Prussian blue analogue as the cathode material. Chemical Science, 2024, 15, 10200-10206.
15) Ting Zhou, Yajun Zhu, Yun Shen, Hui Qiu, Tianli Han, Jinjin Li*, Jinyun Liu*. Ultralong life and high capacity magnesium/sodium hybrid-ion battery using ternary CoSe/NiSe2/CuSe2 cathode and dual-ion electrolyte. Chemical Communications, 2024, 60, 5338-5341.
16) Ting Zhou, Tianli Han, Xirong Lin, Jiamin Liu, Xiangbing Zeng, Peng Zhan, Jinyun Liu*, Junjie Niu*. Designing a magnesium/sodium hybrid battery using hierarchical iron selenide architecture as cathode material and modified dual-ion salts in ether as electrolyte. Nano Letters, 2024, 24, 4400–4407.
17) Tianli Han*, Yan Wang, Kehao Tao, Xiangbin Zeng, Peng Zhan, Yajun Zhu, Jinjin Li*, Jinyun Liu*. SnS2 quantum dots-coated VO2@carbon nanorods for secondary battery displaying high capacity and rate-performance. Chemical Communications, 2024, 60, 3918-3921.
18) Tianli Han*, Haiyuan Bai, Jing Xu, Yajun Zhu, Xirong Lin, Jinyun Liu*. A metal organic framework-derived octahedral Cu1.95S@CoS2 for secondary battery displaying long cycle life and stable temperature tolerance. Chemical Communications, 2023, 59, 14815-14818.
19) Xirong Lin, An Chen, Chaoyu Yang, Kai Mu, Tianli Han, Ting Si*, Jinjin Li*, Jinyun Liu*. A room-temperature self-healing liquid metal-infilled microcapsule driven by coaxial flow focusing for high-performance lithium-ion battery anode. Small, 2024, 20, 2307071
20) Tianli Han, Shanshan Yang, Liying Zhu, Xirong Lin, Jinyun Liu*. A color-changeable “pearl” for visually displaying chemical complexation reactions. Journal of Chemical Education, 2023, 100, 707-713.
21) Jiawei Long, Tianli Han, Xirong Lin, Yajun Zhu, Jinyun Liu*. A foldable self-healing rocking chair zinc-ion battery using three-dimensional zinc metal-free anode. Chemical Communications, 2023, 59, 13739-13742.
22) Jinyun Liu*, Xiaofei Huang, Rui Wang, Tianli Han, Huigang Zhang. Nanowires-assembled Co3S4/Cu2S@carbon binary metal sulfide hybrid as sodium-ion battery anode displaying high capacity and recoverable rate-performance. Chemical Communications, 2023, 59, 11688-11691.
23) Haiyuan Bai, Jing Xu, Jinyun Liu, Tianli Han*, Junjie Niu*. A nanowire-on-microrod polyaniline@FeS2 hybrid as cathode in high-performance Al-ion batteries. Chemical Communications, 2023, 59, 11216-11219.
24) Jiawei Long, Tianli Han, Xirong Lin, Yajun Zhu, Yingyi Ding, Jinyun Liu*, Huigang Zhang*. An integrated flexible self-healing Zn-ion battery using dendrite-suppressible hydrogel electrolyte and free-standing electrodes for wearable electronics. Nano Research, 2023, 16, 11000-11011.
25) Xiaofei Huang, Rui Wang, Lihui Wu, Huigang Zhang*, Jinyun Liu*. An all-climate long-life and fast-charging sodium-ion battery using Co3S4@NiS2 heterostructures encapsulated in carbon matrix as anode. Small, 2023, 19, 2304165.
26) Xiaofei Huang, Kehao Tao, Tianli Han, Jinjin Li, Huigang Zhang, Chaoquan Hu*, Junjie Niu*, Jinyun Liu*. Long-cycling-life sodium-ion battery using binary metal sulfide hybrid nanocages as anode. Small, 2023, 19, 2302706.
27) Yingyi Ding, Zihan Shen, Tianli Han, Jing Xu, Huigang Zhang, Chaoquan Hu*, Jinyun Liu*. Rational engineering yolk-shell In2S3@void@carbon hybrid as polysulfides-absorbable sulfur host for high-performance lithium-sulfur batteries, Dalton Transactions, 2023, 52, 10789-10794.
28) Qian Ding, Tianli Han, Xirong Lin, Ting Zhou, Jinyun Liu*, Huigang Zhang*. A single-crystalline Co3O4 nanoparticles-assembled three-dimensional chain as ultra-stable magnesium-ion battery cathode under different temperatures, Dalton Transactions, 2023, 52, 7161-7165.
29) Yajun Zhu, Tianli Han, Xirong Lin, Huigang Zhang, Chaoquan Hu*, Jinyun Liu*. A blade-like CoZn metal organic frameworks-based flexible quasi-solid Zn-ion battery. Chemical Communications, 2023, 59, 2640-2643.
30) Yan Wang, Zihan Shen, Xirong Lin, Qian Ding, Xiaofei Huang, Tianli Han*, Huigang Zhang*, Jinyun Liu*. Rational Engineering of VS4 nanorod array on rose-shaped VS2 nanosheets for high-performance aluminium-ion batteries. Chemical Communications, 2022, 58, 11677-11680.
31) Yingyi Ding, Tianli Han, Zhao Wu, Yong Guan, Jun Hu, Chaoquan Hu, Yangchao Tian*, Jinyun Liu*. A magnesium/lithium hybrid-ion battery with modified all-phenyl complex-based electrolyte displaying ultralong cycle life and ultrahigh energy-density. ACS Nano, 2022, 16, 15369-15381.
32) Yajun Zhu, Xirong Lin, Xin Jin, Tianli Han*, Huigang Zhang*, Jinyun Liu*. A flexible self-healing Zn3V2O7(OH)2·2H2O-based Zn-ion battery under continuous folding and twisting. Chemical Communications, 2022, 58, 8117-8120.
33) Tianli Han*, Yan Wang, Haiyuan Bai, Huigang Zhang, Jinyun Liu*. A lamellar V2O3@C composite for aluminum-ion battery displaying long cycle life and low-temperature tolerance. Chemical Communications, 2022, 58, 7172-7175.
34) Xirong Lin, Chaoyu Yang, Tianli Han, Jinjin Li*, Zhonghua Chen*, Haikuo Zhang, Kai Mu, Ting Si*, Jinyun Liu*. A graphene oxide scaffold-encapsulated microcapsule for polysulfide-immobilized long life lithium–sulfur batteries. Lab on a Chip, 2022, 22, 2185.
35) Jinyun Liu*, Ting Zhou, Tianli Han, Liying Zhu, Yan Wang, Yunfei Hu*, Zhonghua Chen*. Engineering a ternary one-dimensional Fe2P@SnP0.94@MoS2 mesostructure through magnetic field-induced self-assembly as high-performance lithium-ion battery anode. Chemical Communications, 2022, 58, 5108-5111.
36) Zhilong Wang, Junfei Cai, Yanqiang Han, Tianli Han, An Chen, Simin Ye, Jinyun Liu*, Jinjin Li*. Computational screening of spinel structure cathodes for Li-ion battery with low expansion and rapid ion kinetics. Computational Materials Science 2022 204, 111187.
37) Ting Zhou, Yan Wang, Yajun Zhu, Tianli Han*, Huigang Zhang*, Jinyun Liu*. A novel caterpillar-with-eggs mesostructured iron sulfide as Li-ion battery anode displaying stable electrochemical performance. Chemical Communications, 2022, 58, 1561-1564
38) Jinyun Liu,* Yingyi Ding, Zihan Shen, Huigang Zhang, Tianli Han, Yong Guan, Yangchao Tian,* Paul V. Braun. A lamellar yolk–shell lithium-sulfur battery cathode displaying ultralong cycling life, high rate performance, and temperature tolerance. Advanced Science, 2022, 9, 2103517.
39) Jinyun Liu*, Mengfei Zhu, Kai Mu, Tianli Han, Zeng Pan, Yuqing Gan, Huigang Zhang*, Ting Si*. Engineering a novel microcapsule of Cu9S5 core and SnS2 quantum dot/carbon nanotube shell as Li-ion battery anode. Chemical Communications, 2021, 57, 13397-13400
40) Jinyun Liu*, Ting Zhou, Yan Wang, Tianli Han, Chaoquan Hu*, Huigang Zhang*. A novel nanosphere-in-nanotube iron phosphide Li-ion battery anode displaying a long cycle life, recoverable rate-performance, and temperature tolerance. Nanoscale, 2021, 13, 15624-15630.
41) Jinyun Liu*, Mengfei Zhu, Zihan Shen, Tianli Han, Ting Si, Chaoquan Hu*, Huigang Zhang*. A polysulfides-confined all-in-one porous microcapsule lithium-sulfur battery cathode. Small, 2021, 17, 2103051.
42) Jinyun Liu*, Jiawei Long, Zihan Shen, Xing Jin, Tianli Han, Ting Si, Huigang Zhang*. A self-healing flexible quasi-solid zinc-ion battery using all-in-one electrodes. Advanced Science, 2021, 8, 2004689.
43) Zhilong Wang,1 Haikuo Zhang,1 Jiahao Ren, Xirong Lin, Tianli Han, Jinyun Liu*, Jinjin Li*. Predicting adsorption ability of adsorbents at arbitrary sites for pollutants using deep transfer learning. npj Computational Materials, 2021, 1, 19.
Haikuo Zhang, Zhilong Wang, Jiahao Ren, Jinyun Liu*, Jinjin Li*. Ultra-fast and accurate discovery of shuttle effect-suppressive sulfur hosts for lithium-sulfur batteries using machine learning. Energy Storage Materials, 2021, 35, 88-98.
