赵云，男，1984年生，工学博士，副教授，硕士生导师。2013年毕业于中国科学院山西煤化所，获材料科学与工程专业博士学位。同年进入山西大学分子科学研究所能量转换与存储材料研究团队工作至今,主要从事二次碱金属离子电池正负极材料方面的研究工作。目前，主持国家自然科学基金项目1项，省部级项目4项，横向课题2项，累计争取科研经费380余万元。发表SCI论文50余篇，获得授权国家发明专利二十余项。山西省“三晋英才”青年优秀人才，山西省工信厅、综改区、华阳集团项目评审专家库成员。曾多次作为审稿人完成Advanced Functional Materials, Journal of Materials Chemistry A, Carbon, Journal of Power Sources, Nano Research以及Energy & Fuels等著名期刊的审稿工作。

主要研究方向：

1.生物质基、煤/沥青基硬碳负极材料开发及企业应用推广。

2.磷酸铁钠、磷酸钒钠等聚阴离子型钠离子电池正极材料的改性及电芯研制。

3.基于金属硫族化合物的纳米复合材料制备及钠/钾离子电池性能研究。

近年来发表的第一/通讯作者SCI论文：

[1] Yun Zhao*, Yongtao Zhang, Yong Li, Canliang Ma, et al. Dual-complexing agent dominated synthesis of carbon coated Na3V2(PO4)3 cathodes for high-performance sodium ion batteries, Journal of Alloys and Compounds, 2024, 986: 174127.

[2] Lina Wang, Sheng Zhu, Zhihao Huang, Mengxiu Li, Yun Zhao*, et al. Rapid and up-scalable flash fabrication of graphitic carbon nanocages for robust potassium storage, Advanced Functional Materials, 2024, 2401548.

[3] Yun Zhao*, Haoyue Zhang, Yong Li, Canliang Ma, et al. Synergistic γ-In2Se3@rGO nanocomposites with beneficial crystal transformation behavior for high-performance sodium-ion batteries, Advanced Science, 2023, 10: 2303108.

[4] Lichang Ji, Yun Zhao*, Lijuan Cao, Yong Li, et al. A fundamental understanding of structure evolution in the synthesis of hard carbon from coal tar pitch for high-performance sodium storage, Journal of Materials Chemistry A, 2023, 11: 26727.

[5] Lina Wang, Yun Zhao*, Yong Li, Canliang Ma, et al. Bottom-up gas phase construction of carbon coated Fe7Se8 nanosheet/carbon nanotube hybrid as ultrastable anode material for sodium-ion half/full batteries, Journal of Alloys and Compounds, 2023, 960:170810.

[6] Lina Wang, Yun Zhao*, Lijuan Cao, Yong Li, Gaoyi Han, Canliang Ma, Zongping Shao, CoS nanoparrticle encapsulated S-doped carbon nanofiber/nanotube hybrid grown on exfoliated graphite for long-lifespan and high-rate potassium ion batteries, Applied Surface Science, 2022, 603:154370.

[7] Linan Yang, Yun Zhao*, Canliang Ma, Gaoyi Han, Activated carbon deriving from microcrystalline graphite ore as high-performance anode material for potassium-ion batteries, Journal of Materials Science, 2021, 32: 24446-24458.

[8] Yun Zhao*, Lina Wang, Jianjiao Wang, Yong Li, Canliang Ma, Gaoyi Han, Gas phase self-assembly of carbon confined Fe1-xS nanoparticles/exfoliated graphite composite with nano/micro-structure for long-life anode of potassium-ion batteries, Journal of Alloys and Compounds, 2021, 871: 159522.

[9] Linan Yang, Yun Zhao*, Lijuan Cao, Huili Chen, Gaoyi Han, Polyvinylidene fluoride-derived carbon-confined microcrystalline graphite with improved cycling life and rate performance for potassium ion batteries, Energy & Fuels, 2021. 35: 5308-5319.

[10] Lina Wang, Yun Zhao*, Canliang Ma, Gaoyi Han, Gas-phase construction of holey exfoliated graphite supported NiS nanoparticles with superior electrochemical performance for sodium-ion batteries, Materials Letters, 2021. 302: 130396.

[11] Yun Zhao*, Linan Yang, Canliang Ma, Gaoyi Han, One-step fabrication of fluorine-doped graphite derived from a low-grade microcrystalline graphite ore for potassium-ion batteries, Energy & Fuels, 2020. 34: 8993-9001.

[12] Yun Zhao*, Linan Yang, Canliang Ma, One-step gas-phase construction of carbon-coated Fe3O4 nanoparticle/carbon nanotube composite with enhanced electrochemical energy storage, Frontiers of Materials Science, 2020, 14: 145-154.

[13] Yong Li, Yun Zhao*, Canliang Ma, Jing Shi, Yongxiang Zhao, Highly monodispersed graphene/SnO2 hybrid nanosheets as bifunctional anode materials of Li-ion and Na-ion batteries, Journal of Alloys and Compounds, 2020, 821: 153506.

[14] Pengyu Han, Yun Zhao*, Facilely self-assembled MnS/S-doped reduced graphene oxide network with enhanced performance for potassium-ion battery, Materials Letters, 2020, 264: 127367.

[15] Yun Zhao*, Jianjiao Wang, Canliang Ma, Lijuan Cao, Zongping Shao, A self-adhesive graphene nanoscroll/nanosheet paper with confined Fe1-xS/Fe3O4 hetero-nanoparticles for high-performance anode material of flexible Li-ion batteries, Chemical Engineering Journal, 2019, 370: 536-546.

[16] Yun Zhao*, Jianjiao Wang, Canliang Ma, Yong Li, et al. Interconnected graphene nanosheets with confined FeS2/FeS binary nanoparticles as anode material of sodium-ion batteries, Chemical Engineering Journal, 2019, 378: 122168.

[17] Jie Shan, Jian-jiao Wang, Paul Kiekens, Yun Zhao*, Jie-jie Huang, Effect of co-activation of petroleum coke and Artemisia Hedinii on potassium loss during activation and its promising applications in anode material of potassium-ion batteries, Solid State Sciences, 2019, 92: 96-105.

[18] Jie Shan, Jian-jiao Wang, Yun Zhao*, Jie-jie Huang, Nitrogen-doped porous carbon/Mn3O4 composites as anode materials for lithium-ion batteries, Solid State Sciences, 2019, 92: 89-95.

[19] Yun Zhao*, Qidong Lin, Yong Li, Canliang Ma, An ordered mesoporous network consisting of carbon-coated ultrasall SnO2 nanoparticles with enhanced lithium storage, International Journal of Applied Ceramic Technology, 2019, 16: 304-314.

[20] Yun Zhao*, Jianjiao Wang, Canliang Ma, Yong Li, Cr2O3 ultrasmall nanoparticles filled carbon nanocapsules deriving from Cr(VI) for enhanced lithium storage, Chemical physics letters, 2018, 704: 31-36.

[21] Canliang Ma, Yun Zhao*, Yong Li, A facile solution-free etching preparation of porous graphene nanosheets with high performances for lithium storage, Chemical Engineering Journal, 2017, 320: 283-289.

[22] Yun Zhao*, Canliang Ma, Yong Li, One-step microwave preparation of a Mn3O4 nanoparticles/exfoliated graphite composite as superior anode materials for Li-ion batteries, Chemical Physics Letters, 2017, 673: 19-23.

[23] Canliang Ma, Jing Shi, Yun Zhao*, Ningjing Song, Yuxiang Wang, A novel porous reduced microcrystalline graphene oxide supported Fe3O4@C nanoparticle composite as anode material with excellent lithium storage performances, Chemical Engineering Journal, 2017, 326: 507-517.

[24] Yong Li, Yun Zhao*, Canliang Ma, Yongxiang Zhao, Novel solvent-thermal preparation of a SnO2 nanoparticles/expanded graphite multiscale composite with extremely enhanced electrical performances for Li-ion batteries, Electrochimica Acta, 2016, 218: 191-198.

[25] Yun Zhao*, Yong Li, Canliang Ma, Zongping Shao, Micro-/nano-structured hybrid of exfoliated graphite and Co3O4 nanoparticles as high-performance anode material for Li-ion batteries, Electrochimica Acta, 2016, 213: 98-106.

[26] Yun Zhao*, Canliang Ma, Chang Ma, Jing Shi, Jingli Shi, Facile solution-free preparation of a carbon coated Fe3O4 nanoparticles/expanded graphite composite with outstanding Li-storage performances, Materials Letters, 2016, 177: 148-151.

[27] Canliang Ma, Jing Dong, Yun Zhao*, Juan Li, Huili Chen, Dual-template synthesis of novel pomegranate-like hollow carbon nanoparticles with improved electrochemical performance for Li-ion batteries, Carbon, 2016, 110: 180-188.

[28] Yun Zhao, Canliang Ma, Yong Li, Huili Chen, Zongping Shao, Self-adhesive Co3O4/expanded graphite paper as high-performance flexible anode for Li-ion batteries, Carbon, 2015, 95: 494-496.

[29] Canliang Ma#, Yun Zhao#, Jin Li, Yan Song, Jingli Shi, et al, Synthesis and electrochemical properties of artificial graphite as an anode for high-performance lithium-ion batteries, Carbon, 2013, 64: 553-556.

[30] Yun Zhao, Jingli Shi, Huiqi Wang, Zechao Tao, et al. A sandwich structured graphite block with excellent thermal and mechanical properties reinforced by in-situ grown carbon nanotubes. Carbon, 2013, 51: 427-430.

[31] Yun Zhao, Zhanjun Liu, Huiqi Wang, Jingli Shi, et al. Microstructure and thermal/mechanical properties of short carbon fiber-reinforced natural graphite flake composites with mesophase pitch as the binder. Carbon, 2013, 53: 313-320.

研究生招生：

本课题组每年招收硕士研究生2-3名，热忱欢迎有志于从事低成本高性能钠/钾离子电池关键材料开发和应用推广、能吃苦且具有探索精神的同学们垂询和加入！

联系方式：

地址：太原市坞城路92号

单位：山西大学分子科学研究所

邮编：030006

E-mail: zhaoyun@sxu.edu.cn