获奖：

[1] 国家级青年人才 2024年

[2] 北京科技大学十佳班主任 2024年

[3] 小米青年学者 2022年

[4] 第三届中国发明创业奖成果奖一等奖 2022年

[5] 全国大学生冶金科技竞赛一、二、三等奖指导教师 2022-2024年

[6] 北京市科技新星 2021年

[7] 北京航空航天大学青年拔尖人才2020年

[8] 北京大学优秀博士后 2018年

[9] 北京科技大学第十届金质校长奖章 2016年

[10] 北京科技大学十佳学术之星 2015年

专利：

1. 王伟，焦树强，郭玉玺。一种高能量Al‒MOF电池及其正极材料的制备方法。202210085807.4。

2. 王伟，杨会泽，杨树峰，焦树强。一种多层钾离子凝胶电解质及其制备方法。202311752380.X。

3. 王伟，焦树强，关伟。一种铝离子电池集流体及其制备方法。202211339667.5。

4. 王伟，朱振洲，高晨龙，焦树强。一种利用石煤制备硫酸氧钒溶液的方法。202510033322.4。

5. 王伟，吴金朋，焦树强。一种界面黏附钾离子凝胶电解质及其制备方法。202510015275.0。

6. 王伟，吴金朋，高晨龙，焦树强。一种石煤硫酸浸出液的两段式溶剂萃取除杂方法。202510018884.1。

7. 王伟，邢立东，于琪瑶，涂继国。一种超薄二硒化钨纳米花的制备及应用方法。202011335335.0。

8. 郭少军，王伟，钱敞，黄翰鑫。一种钠基双离子电池。201810091300.3。

9. 李平，刘志伟，王伟，赵汪，锁国权，万琦，曲选辉，秦明礼。一种中空KMnF3纳米正方体颗粒的制备方法。201710947281.5。

10. 焦树强，王树博，朱鸿民，葛建邦，王伟。一种镍基金属间化合物惰性阳极的制造方法及应用方法。201210047578.3。

简历：

北京科技大学—英国剑桥大学联合培养博士，2016年1月获得博士学位，随后在北京大学（博雅博士后）和美国哈佛大学做博士后研究。2019年评为北京航空航天大学教授，博士生导师，北京航空航天大学青年拔尖人才。2021年入职北京科技大学。入选国家级青年人才，北京市科技新星，河北省产业创新创业团队负责人，小米青年学者。迄今已发表SCI学术论文200余篇，申请授权专利20余项。主持国家自然科学基金、中央军委科技委、省部级和企业项目等20余项。已发表SCI学术论文200余篇，其中以通讯/第一作者在国际顶级学术期刊Nature Communications，Advanced Materials, Angewandte Chemie，Energy Environmental Science等发表SCI学术论文100余篇，高被引论文20余篇，SCI引用14000余次。与哈佛大学、剑桥大学和麻省理工学院等世界著名大学在能源存储和冶金电化学等领域具有长期紧密的合作。成果介绍：

https://scholar.google.com/citations?hl=zh-CN&user=Gqh8H0UAAAAJ&view_op=list_works&sortby=pubdate

代表性论著 ：

1. Yuxi Guo, Wei Wang*, Ke Guo, Xiaodong Chen, Mingyong Wang, Zheng Huang, Yanli Zhu*, Weili Song, Shuqiang Jiao*. A bipolar-redox tetraalkynylporphyrin macrocycle positive electrode with 12-electrons-transfer for high-energy aluminum-organic batteries. Nature Communications, 2025, 16, 2794.

2. Zhijing Yu, Wei Wang*, Yong Zhu, Wei-Li Song, Zheng Huang, Zhe Wang*, Shuqiang Jiao*. Construction of double reaction zones for long-life quasi-solid aluminum-ion batteries by realizing maximum electron transfer. Nature Communications, 2023, 14, 5596.

3. Yuxi Guo, Wei Wang*, Haiping Lei, Mingyong Wang, Shuqiang Jiao*. Alternate storage of opposite charges in multisites for high-energy-density Al-MOF batteries. Advanced Materials, 2022, 34, 2110109.

4. Huize Yang, Wei Wang*, Zheng Huang, Zhe Wang, Liwen Hu, Mingyong Wang, Shufeng Yang*, Shuqiang Jiao*. Weak electrostatic force on K+ in gel polymer electrolyte realizes high ion transference number for quasi solid-state potassium ion batteries. Advanced Materials, 2024, 36, 2401008.

4. Wei Guan, Wei Wang*, Zheng Huang, Jiguo Tu, Haiping Lei, Mingyong Wang, Shuqiang Jiao*. The reverse of electrostatic interaction force for ultrahigh-energy Al-ion batteries. Angewandte Chemie International Edition, 2024, 63, e202317203.

6. Yanjun Gao, Qiyao Yu*, Huize Yang, Jianguo Zhang*, Wei Wang*. The enormous potential of sodium/potassium-ion batteries as the mainstream energy storage technology for large-scale commercial applications. Advanced Materials, 2024, 36, 2405989.

7. Huize Yang, Wei Wang,* Yaxue Wang, Liwen Hu, Shufeng Yang,* Shuqiang Jiao*. Research progress and prospect of perovskite and anti-perovskite solid electrolytes for sodium solid-state batteries. Advanced Materials, 2025, 2500031.

8. Wei Wang, Bo Jiang, Chang Qian, Peihao Li, Fan Lv, Kai Wang, Chao Yang, Yong Yang, Shaojun Guo*. Pistachio-shuck-like MoSe2/C core/shell nanostructures for high-performance potassium-ion storage. Advanced Materials, 2018, 30, 1801812.

9. Zhiwei Liu, Ping Li, Guoquan Suo, Sheng Gong, Wei (Alex) Wang*, Cheng-Yen Lao, Yajie Xie, Hao Guo, Qiyao Yu, Wang Zhao, Kun Han, Qian Wang, Mingli Qin, Kai Xi, Xuanhui Qu*. Zero-strain K0.6Mn1F2.7 hollow nanocubes for ultrastable potassium ion storage. Energy Environmental Science, 2018, 11, 3033.

10. Xin Min, Jun Xiao, Minghao Fang*, Wei (Alex) Wang*, Yajing Zhao, Yangai Liu, Amr Abdelkader, Kai Xi*, Ramachandran Vasant Kumar, Zhaohui Huang. Potassium-ion batteries: outlook on present and future technologies. Energy Environmental Science, 2021, 14, 2186.

11. Wei Wang, Fan Lv, Bo Lei, Sheng Wan, Mingchuan Luo, Shaojun Guo*. Tuning nanowires and nanotubes for efficient fuel-cell electrocatalysis. Advanced Materials, 2016, 28, 10117.

12. Wei (Alex) Wang, Hanxin Huang, Bin Wang, Chang Qian, Peihao Li, Jinhui Zhou, Zibin Liang, Chao Yang, Shaojun Guo*. A new dual-ion battery based on amorphous carbon. Science Bulletin, 2019, 64, 1634-1642.

13. Hanjiao Huang, Xiaowei Wu, Yanjun Gao, Zongyou Li, Wei Wang*, Wenshuai Dong, Qingyi Song, Songjie Gan, Jianguo Zhang*, Qiyao Yu*. Polyanionic cathode materials: a comparison between Na-ion and K-ion batteries. Advanced Energy Materials, 2024, 14, 2304251.

14. Wei Wang, Jinhui Zhou, Zhuopeng Wang, Liyun Zhao, Peihao Li, Yong Yang, Chao Yang, Hanxin Huang, Shaojun Guo*. Short-range order in mesoporous carbon boosts potassium-ion battery performance. Advanced Energy Materials, 2018, 8, 1701648.

15. Mingli Qin*, Xinran Li, Yongzhi Zhao, Cheng-Yen Lao, Zili Zhang, Luan Liu, Fei Fang, Haoyang Wu, Baorui Jia*, Zhiwei Liu, Wei (Alex) Wang*, Xuanhui Qu. Unprecedented synthesis of holey 2D layered double hydroxide nanomesh for enhanced oxygen evolution. Advanced Energy Materials, 2019, 9, 1803060.

16. Lupeng Zhang, Wei (Alex) Wang*, et al. Carbon anode materials: A detailed comparison between Na-ion and K-ion batteries. Advanced Energy Materials, 2021, 11, 2003640.

17. Mei Chen, Wei Wang (co-first author), Xiao Liang, Sheng Gong, Jie Liu, Qian Wang*, Shaojun Guo*, Huai Yang*. Sulfur/oxygen codoped porous hard carbon microspheres for high-performance potassium-ion batteries. Advanced Energy Materials, 2018, 8, 1800171.

18. Baorui Jia, Qiyao Yu, Yongzhi Zhao, Mingli Qin*, Wei Wang*, Zhiwei Liu, Cheng-Yen Lao, Ye Liu, Haowang Wu, Zili Zhang, Xuanhui Qu. Bamboo-like hollow tubes with MoS2/N-doped-C interfaces boost potassium-ion storage. Advanced Functional Materials, 2018, 28, 1803409.

19. Wei Wang, Bo Lei, Shaojun Guo*. Engineering multimetallic nanocrystals for highly efficient oxygen reduction catalysts. Advanced Energy Materials, 2016, 6, 1600236.

20. Mingli Qin*, Zili Zhang, Yongzhi Zhao, Luan Liu, Baorui Jia*, Kun Han, Haoyang Wu, Ye Liu, Lijun Wang, Xin Min, Kai Xi, Cheng-Yen Lao, Wei (Alex) Wang*, Xuanhui Qu, Ramachandran Vasant Kumar. Optimization of von-Mises-stress distribution in mesoporous α-Fe2O3/C hollow bowls synergistically boosts gravimetric/volumetric capacity and high-rate stability in alkali-ion batteries. Advanced Functional Materials, 2019, 29, 1902822.