姓名：田华军

职称：教授、博导

院系：59599aa美高梅(中国)App Store

职务：储能电池材料与应用技术研究所所长；

          材料科学与工程教研室主任

研究方向：储能二次电池材料与器件；新型电化学储能材料

联系方式：

电话：010-61771291

邮箱： Huajun.Tian@ncepu.edu.cn

地址：主楼G350

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个人简介及主要荣誉称号：

田华军，男，教授，博导，毕业于中国科学院大学，获工学博士学位，2021荣获中国新锐科技人物卓越影响奖。国家储能技术产教融合创新平台-储能材料与器件团队负责人。担任高水平期刊，包括：物理化学学报、eScience、中国化学快报（Chinese Chemical Letters）、Journal of Materiomics等杂志青年编委。领导的团队长期从事单价离子电池，包括全固态钠离子电池；多价离子电池，包括高安全性镁、铝、锌离子电池在内的高比能二次新型储能电池研究。曾先后在美国马里兰大学王春生教授组、澳大利亚悉尼科技大学汪国秀教授组、美国中佛罗里达大学杨阳教授组从事二次电池研究工作，在Nature Reviews Chemistry, Chemical Reviews, Nature Communications（4篇）, Science Advances, 物理化学学报, Advanced Materials（2篇）, Advanced Energy Materials（2篇）, Advanced Functional Materials（2篇）, Energy & Environmental Science,  ACS Nano（2篇）, ACS Energy Letters, Nano Energy（2篇）, Energy Storage Materials（3篇）, Journal of Materials Chemistry A（6篇）等期刊上发表SCI文章50余篇，被引超过4000次，申请（含授权）专利20余项。所领导的团队重点开发应用于智能电网与局域储能用储能系统的高能量密度、宽温区、长寿命、高安全水系金属离子电池、低成本钠离子电池、高安全固态电池。

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教学与人才培养情况：

为本科生主讲《材料科学与工程导论》、《专业英语阅读（材料）》课程，为研究生讲《新材料及其在能源电力行业中的应用》等课程。目前指导在读研究生数名。

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主要科研项目和平台：

（1） 国家储能技术产教融合创新平台，电化学储能材料与器件（团队负责人）

（2） 本质安全储能监测技术, 国网“双创”项目2024-2025（负责人）

（3）华北电力大学学科交叉创新专项2021-2023（负责人）

（4）华北电力大学高层次人才引进及培育计划2020-2024（负责人）

（5）The UTS Early Career Researcher Grant（负责人，已结题）

（6）The UCF Pre-eminent Postdoctoral Program (P3)（负责人，已结题）

（7）M-Si合金制备多尺度多孔硅基锂离子电池负极材料及其储锂性能研究，国家自然科学基金（负责人，已结题）

（8）锂离子电池微纳结构TiO₂ 杂原子可控掺杂及界面机理研究，中国博士后科学基金面上项目（负责人，已结题）

（9）M-Si合金制备微米尺度分级结构硅基锂离子电池负极材料及其储锂性能研究，浙江省自然科学基金（负责人，已结题）

（10）高性能锂离子电池纳米非晶SiOx 负极材料及其界面特性研究，浙江省博士后科研项目（负责人，已结题）

（11）高比表面积Magnéli 相 Ti_nO_2n-1/碳复合电极的设计合成及其赝电容性能研究，宁波市自然科学基金（负责人，已结题）。

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主要获奖情况：

中国新锐科技人物卓越影响奖；中国科学院院长奖；安徽省自然科学优秀学术论文二等奖；澳大利亚悉尼科技大学Early Career Researcher。

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代表性论著：

1.Bijiao He, Fang，Zhang, Yan Xin*, Chao Xu, Xu Hu, Xin Wu, Yang Yang*, Huajun Tian*（通讯作者）, Halogen chemistry of solid electrolytes in all-solid-state batteries, Nature Reviews Chemistry, 2023, 7, 826–842

2. Fang Zhang, Bijiao He, Yan Xin, Tiancheng Zhu, Yuning Zhang*, Shuwei Wang, Weiyi Li, Yang Yang*, Huajun Tian*（通讯作者）, Emerging chemistry for wide-temperature sodium-ion batteries（选为封面文章）, Chemical Reviews, 2024, 124, 4778−4821.

3.Huajun Tian, Guangxia Feng, Qi Wang, Zhao Li, Wei Zhang, Marcos Lucero, Zhenxing Feng, Zi-Le Wang, Yuning Zhang, Cheng Zhen, Meng      Gu*, Xiaonan Shan*,Yang Yang*，Three-dimensional      Zn-based alloys for dendrite-free aqueous Zn battery in dual-cation electrolytes，Nature Communications, 2022, 13, 7922.      

4.Huajun Tian, Zhao Li, Guangxia Feng, Zhenzhong Yang, David Fox, Maoyu Wang, Hua Zhou, Lei Zhai, Akihiro Kushima, Yingge Du,  Zhenxing Feng*, Xiaonan Shan*, Yang Yang*, Stable, high-performance,      dendrite-free, seawater aqueous batteries, Nature Communications, 2021, 12, 237.

5.Huajun Tian*（通讯作者）†, Tao Gao†,  Xiaogang Li, Xiwen Wang, Chao Luo, Xiulin Fan, Chongyin Yang, Liumin Suo,      Zhaohui Ma, Weiqiang Han, Chunsheng Wang*, High Power Rechargeable Magnesium/Iodine Battery Chemistry,Nature  Communications, 2017, 8, 14083.

6.Hao Tian†, Huajun Tian†(共同第一作者), Shijian Wang, Shuangming Chen, Fan Zhang, Li Song*, Hao Liu*, Jian Liu* and Guoxiu Wang*, High-power lithium–selenium batteries enabled by atomic cobalt      electrocatalyst in hollow carbon cathode, Nature Communications,  2020, 11,5025.

7.Yan Xin, Jiayao Qi, Huanhuan Xie, Yunnian Ge, Zerui Wang, Fang Zhang, Bijiao He, Shuwei Wang, Huajun Tian*（通讯作者）, 3D Ternary  Alloy Artificial Interphase Toward Ultra-Stable and Dendrite-Free Aqueous      Zinc Batteries, Advanced Functional Materials, 2024,      2403222.

8.Jing Xu, Yang Jin,* Kai Liu,* Nawei Lyu, Zili，Zhang, Bin Sun, Qianzheng Jin,Hongfei Lu, Huajun Tian, Xin Guo, Devaraj Shanmukaraj, Hui Wu, Meicheng Li, Michel Armand,* Guoxiu Wang,* A green and sustainable strategy toward lithium resources recycling  from spent batteries, Science Advances，2022,8(40),      eabq7948.

9.Huajun Tian†, Xuechao Yu†, Hezhu Shao, Liubing Dong, Yi Chen, Xiaqin Fang, Chengyin Wang, Weiqiang Han*, Guoxiu Wang*, Unlocking Few-layered Ternary Chalcogenides for High-performance Potassium-ion Storage, Advanced Energy Materials, 2019, 1901560

10.Guangxia Feng†, Jiaming Guo†, Huajun Tian† (共同第一作者), Zhao Li,Yaping Shi, Xiaoliang Li, Xu Yang, David Mayerich, Yang Yang, Xiaonan Shan，Probe the Localized Electrochemical Environment Effects and Electrode Reaction Dynamics for Metal Batteries using In Situ 3D Microscopy, Advanced      Energy Materials，2022,12(3), 2103484

11.Hao Tian†, Huajun Tian†(共同第一作者), Wu Yang, Fan Zhang, Wang Yang, Qiaobao Zhang,* Yong Wang, Jian Liu,* S. Ravi P. Silva, Hao Liu *, Guoxiu Wang*, Stable Hollow-Structured Silicon Suboxide-Based      Anodes toward High-Performance Lithium-Ion Batteries, Advanced Functional Materials, 2021, 2101796

12.Huajun Tian, Hezhu Shao, Yi Chen, Xiaqin Fang, Pan Xiong, Bing Sun, Peter H. L. Notten, Guoxiu Wang*, Ultra-stable Sodium Metal-iodine Batteries Enabled by an In-situ Solid Electrolyte Interphase,      Nano Energy, 2019, 57, 692-702.

13.Shuwei Wang, Jianxun Zhang, Lihan Zhang*, Xiaojing Li, Yuanming Liu, Rui Zhao, Zile Wang, Xuewei Lu, Yan Xin, Huajun Tian*（通讯作者）, Feiyu Kang, Baohua Li*, Revealing the Synergistic Effect of LiF and Li3N in Solid Electrolyte Interphase for Stable Lithium Metal batteries via In-Situ Electrochemical Atomic Force Microscope, Journal of Materials Chemistry A, 2024, doi.org/10.1039/D3TA08019F

14.Pan Xiong, Xiuyun Zhang, Fan Zhang, Ding Yi, Jinqiang Zhang, Bing Sun, Huajun Tian, Devaraj Shanmukaraj, Teofilo Rojo*, Michel Armand*, Renzhi Ma, Takayoshi Sasaki*, Guoxiu Wang*, Two-Dimensional Unilamellar Cation-Deficient Metal Oxide Nanosheet Superlattices for High-Rate Sodium Ion Energy Storage, ACS Nano, 2018, 12 (12), 12337–12346.

15.Yi Chen, Wenxue Zhang, Dong Zhou, Huajun Tian, Dawei Su, Chengyin Wang, Declan Stockdale, Feiyu Kang, Baohua Li, and Guoxiu Wang, Co–Fe Mixed Metal Phosphide Nanocubes with Highly Interconnected-Pore Architecture as an Efficient Polysulfide Mediator for Lithium–Sulfur Batteries, ACS Nano, 2019, DOI: 10.1021/acsnano.9b01079.

16.Yi Chen, Tianyi Wang, Huajun Tian, Dawei Su, Qiang Zhang, Guoxiu Wang, Advances in lithium–sulfur batteries: from academic research to commercial viability, Advanced Energy Materials ,2021, 33, 2003666

17.Huajun Tian*,（通讯作者）Shunlong Zhang, Zhen Meng, Wei He, Wei-Qiang Han*, Rechargeable Aluminum/Iodine Battery Redox Chemistry in Ionic Liquid Electrolyte, ACS Energy Letters, 2017, 2, 1170−1176.

18.Yujia Liang, Huajun Tian*, （通讯作者）Joseph Repac, Sz-Chian Liou, Ji Chen, Weiqiang Han, Chunsheng Wang*, Sheryl Ehrman*, Colloidal spray pyrolysis: A new fabrication technology for nanostructured energy storage materials, Energy Storage Materials, 2018, 13, 8–18.

19.Wei He, Yujia Liang, Huajun Tian*,（通讯作者）Shunlong Zhang, Weiqiang Han*, A facile insitu synthesis of nanocrystal-FeSi-embedded Si/SiOx anode for long-cycle-life lithium ion batteries, Energy Storage Materials, 2017, 8, 119−126.

20.Huajun Tian, Xiaojian Tan, Fengxia Xin, Chunsheng Wang*, Weiqiang Han*, Micro-sized Nano-Porous Si/C Anodes for Lithium Ion Batteries，Nano Energy, 2015(11), 490−499. 

21.Huajun Tian,  Tianyi Wang,  Fan Zhang,  Shuoqing  Zhao,  Steven Wan,  Fengrong He  and  Guoxiu Wang*, Tunable porous      carbon spheres for high-performance rechargeable batteries,Journal of Materials Chemistry A, 2018, 6, 12816–12841.

22.Shunlong Zhang,Xiaojian Tan, Zhen Meng, Huajun Tian,* （通讯作者）Fangfang Xu and Wei-Qiang Han, Naturally abundant high-performance rechargeable aluminum/iodine batteries based on conversion reaction chemistry, Journal of Materials Chemistry A, 2018, 6, 9984–9996.

23.Wei He, Huajun Tian*,（通讯作者） Xiaoliang Wang, Fengxia Xin, Weiqiang Han*, Three-dimensional interconnected network GeO_x/multi-walled CNT composite spheres as high-performance anodes for lithium ion batteries, Journal of  Materials Chemistry A, 2015,3, 19393−19401.

24.Wei He, Huajun Tian*,（通讯作者）Fengxia Xin, Weiqiang Han*, Scalable fabrication of micro-sized bulk porous Si from Fe-Si alloy as a high performance anode for lithium-ion batteries, Journal of Materials Chemistry A, 2015,3, 17956−17962.

25.Huajun Tian, Fengxia Xin, Xiaojian Tan, Weiqiang Han*, High lithium electroactivity of boron-doped hierarchical rutile submicrosphere TiO₂, Journal of Materials Chemistry A, 2014, 2, 10599−10606.

26.Shunlong Zhang, Xiao-Yan Li, Wentao Yang, Huajun Tian*,（通讯作者Zhongkang Han, Hangjun Ying, Guoxiu Wang*,  Wei-Qiang Han*, Novel Synthesis of Red Phosphorus Nanodot/Ti₃C₂T_x  MXenes from Low-Cost Ti₃SiC₂ MAX Phases for Superior Lithium- and Sodium-Ion Batteries, ACS Applied Materials &      Interfaces, 2019, 11, 45, 42086-42093.

27.Zhen Meng, Huajun Tian,* （通讯作者）Shunlong Zhang, Xufeng Yan, Hangjun Ying, Wei He, Chu Liang,  Wenkui Zhang, Xianhua Hou, and Wei-Qiang Han*, Polyiodide-Shuttle  Restricting Polymer Cathode for Rechargeable Lithium/Iodine Battery with Ultralong Cycle Life，ACS Applied Materials & Interfaces, 2018, 10, 17933−17941.

28.Wei He, Huajun Tian*,（通讯作者） Shunlong Zhang, Hangjun Ying, Zhen Meng, Weiqiang Han*, Scalable synthesis of Si/C anode enhanced by FeSix nanoparticles from low-cost ferrosilicon for lithium-ion batteries, Journal of Power Sources, 2017, 353, 270−276.

29.Zhen Meng, Xiaojian Tan, Shunlong Zhang, Hangjun Ying, Xufeng Yan, Huajun Tian*（通讯作者）,Guoxiu Wang, Wei-Qiang Han*,Ultra-Stable Binder-Free Rechargeable Li/I₂ Battery Enabled by“Betadine”Chemical Interaction, Chemical Communications, 2018, 54, 12337.

30.Tiantian Li, Xiangran Chang, Yan Xin*, Yang Liu, Huajun Tian*（通讯作者）, Synergistic Strategy Using Doping and Polymeric Coating Enables High-Performance High-Nickel Layered Cathodes for Lithium-Ion Batteries. The Journal of Physical Chemistry C, 2023, 127, 18, 8448-8461

31.辛燕*; 葛运年; 李泽中; 张桥保*; 田华军*（通讯作者）.储能电池有机电极材料改性策略研究进展. 物理化学学报，2024, 40 (2), 2303060

32.Xiao Chai†, Yan Xin†, Bijiao He, Fang Zhang, Haokai Xie and Huajun Tian（通讯作者）, High-efficiency electrodeposition of magnesium alloy-based anodes for ultra-stable rechargeable magnesium-ion      batteries, Nanoscale, 2024, doi.org/10.1039/D4NR00842A

33.Huajun Tian, Yujia Liang, Joseph Repac, Shunlong Zhang,Chao Luo, Sz-Chian Liou, Guoxiu Wang, Sheryl H. Ehrman*, and Wei-Qiang Han*, Rational Design of Core-Shell-Structured Particles by a One-Step and Template-Free Process for High-Performance Lithium/Sodium Ion Batteries, The Journal of Physical Chemistry C, 2018, 122, 22232−22240.

34.Huajun Tian, Fengxia Xin, Xiaoliang Wang, Wei He,Weiqiang Han*, High capacity group-IV elements (Si, Ge, Sn) based anodes for Lithium-ion Batteries, Journal of Materiomics,2015,1(3), 153−169.

35.Fengxia Xin, Huajun Tian, Xiao-Liang Wang, Wei Xu, Wenge Zheng, Wei-Qiang Han*, Enhanced Electrochemical Performance of Fe_0.74Sn₅@Reduced Graphene Oxide Nanocomposite Anodes for Both Li-Ion and Na-Ion Batteries, ACS  Applied Materials & Interfaces, 2015, 7 (15), 7912−791.

36.Hangjun Ying, Huajun Tian, Zhen Meng, Wei-Qiang Han*, Ti_nO_2n-1 Series Compounds-Properties, Preparation Methods and Applications, Progress  in Chemistry, 2015, 27,361−372.

37.Fengxia Xin, Xiaoliang Wang, Jianming Bai, Wen Wen, Huajun Tian, Chunsheng Wang* and Weiqiang Han*, A Lithiation/Delithiation Mechanism of  Monodispersed MSn₅ (M=Fe, Co and FeCo) Nanospheres, Journal of Materials Chemistry A, 2015, 3, 7170−7178.

38.Xinyue Lei, Zhipeng Ma, Lei Bai, Lei Wang, Yali Ding, Shenglu Song, Ailing Song, Haifeng Dong, Hao Tian, Huajun Tian, Xiangtong Meng, Hao Liu, Bing Sun*, Guangjie Shao, Guoxiu Wang, Porous ZnP matrix for long-lifespan and dendrite-free Zn metal anodes, Battery Energy, 2023, 2, 20230024

39.Hao Tian, Ailing Song, Huajun Tian, Jian Liu, Guangjie Shao, Hao Liu, Guoxiu  Wang*，Single-atom catalysts for high-energy rechargeable batteries, Chemical Science, 2021,12(22), 7656-7676

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实验室：

国家储能技术产教融合创新平台

电站能量传递转化与系统教育部重点实验室

储能电池材料与应用技术研究所

先进二次电池储能实验室