基本信息
姓名:刘志伟
系所:热科学与能源工程系
职称:副教授
办公地点:科技楼913A
邮箱:liuzhiwei@ustb.edu.cn
教育及工作经历
2024.7-至今,北京科技大学,副教授
2022.12-2023.7,新加坡科技设计大学,访问学者
2021.3-2024.6,北京科技大学,能源与环境工程学院,讲师
2018.10-2021.2,北京工业大学,材料科学与工程学院,博士后
2010.9-2018.6,北京科技大学,材料科学与工程学院,硕/博士
2022.12-2023.7,新加坡科技设计大学,访问学者
2021.3-2024.6,北京科技大学,能源与环境工程学院,讲师
2018.10-2021.2,北京工业大学,材料科学与工程学院,博士后
2010.9-2018.6,北京科技大学,材料科学与工程学院,硕/博士
研究领域
1.锂/钠/钾离子电池电极材料结构设计
2.固态电池关键材料制备与性能研究
3.燃料电池催化剂材料合成与改性
2.固态电池关键材料制备与性能研究
3.燃料电池催化剂材料合成与改性
研究生培养
每年招收硕士研究生,也欢迎本科生提前进入实验室。
欢迎有志于从事锂/钠/钾离子电池新材料开发、燃料电池催化剂设计等领域的同学申报,课题组与新加坡国立大学Huiying Yang教授、加拿大国立科学研究院Shuhui Sun院士等国外知名课题组保持长期紧密合作关系,优秀者可推荐国外知名高校访学或读博,课题组提供自由开放的科研氛围,欢迎你的加入!
欢迎有志于从事锂/钠/钾离子电池新材料开发、燃料电池催化剂设计等领域的同学申报,课题组与新加坡国立大学Huiying Yang教授、加拿大国立科学研究院Shuhui Sun院士等国外知名课题组保持长期紧密合作关系,优秀者可推荐国外知名高校访学或读博,课题组提供自由开放的科研氛围,欢迎你的加入!
开设课程
1.《热工学》32学时
2.《新能源材料基础与应用》32学时
2.《新能源材料基础与应用》32学时
学术/社会兼职
1. 《International Journal of Minerals, Metallurgy and Materials》青年编委
2、《粉末冶金工业》青年编委
3、《Nanomaterials》客座编辑
4、Electrochemical Energy Reviews, Advanced Energy Materials, Energy Storage Materials, Journal of Materials Science & Technology, Journal of Materials Chemistry A等多个知名SCI期刊审稿/仲裁人
2、《粉末冶金工业》青年编委
3、《Nanomaterials》客座编辑
4、Electrochemical Energy Reviews, Advanced Energy Materials, Energy Storage Materials, Journal of Materials Science & Technology, Journal of Materials Chemistry A等多个知名SCI期刊审稿/仲裁人
代表性论文及著作
1.Z. W. Liu; P. Li; G. Q. Suo; S. Gong; W. A. Wang; C. Y. Lao; Y. J. Xie; H. Guo; Q. Y. Yu; W. Zhao; K. Han; Q. Wang; M. L. Qin; K. Xi; X. H. Qu. Zero-strain K0.6Mn1F2.7hollow nanocubes for ultrastable potassium ion storage. Energy & Environmental Science, 2018, 11(10): 3033-3042.
2.Z. W. Liu; K. Han; P. Li; W. Wang; D. L. He; Q. W. Tan; L. Y. Wang; Y. Li; M. L. Qin; X. H. Qu. Tuning metallic Co0.85Se quantum dots/carbon hollow polyhedrons with tertiary hierarchical structure for high-performance potassium ion batteries. Nano-Micro Letters, 2019,11: 96.
3.Z. W. Liu; H. Su; Y. B. Yang; T. H. Wu; S. H. Sun; H. J. Yu. Advances and Perspectives on Transitional Metal Layered Oxides for Potassium-Ion Battery. Energy Storage Materials, 2021, 34: 211-228.
4.Z. W. Liu; X. T. Huo; K. Xi; P. Li; L. N. Yue; M. Huang; G. Q. Suo; L. Xu; W. Wang; X. H. Qu. Thickness controllable and mass produced WC@C@Pt hybrid for efficient hydrogen production. Energy Storage Materials, 2018, 10: 268-274.
5.K. Han†; Z. W. Liu†; P. Li; Q. Y. Yu; W. A. Wang; C. Y. Lao; D. L. He; W. Zhao; G. Q. Suo; H. Guo; L. Song; M. L. Qin; X. H. Qu. High-throughput fabrication of 3D N-doped graphenic framework coupled with Fe3C@ porous graphite carbon for ultrastable potassium ion storage. Energy Storage Materials, 2019, 22: 185-193. (†共一)
6.N. Han, S. H. Feng, W. Guo, O. M. Mora, X. L. Zhao*, W. Zhang, S. J. Xie, Z. Y. Zhou, Z. W. Liu*, Q. Liu, K. Wan, X. Zhang*, J. Fransaer*. Rational design of Ruddlesden-Popper perovskite electrocatalyst for oxygen reduction to hydrogen peroxide." SusMat, 2022, 2(4): 456-465. (热点论文)
7.Z. W. Liu; D. He; B. Y. Wang; T. H. Wu; S. M. He; Y. L; S. H. Sun; H. J. Yu. A low voltage Na2TiGeO5 anode for ultrastable lithium ion batteries. Small, 2022, 18(14): 2107608.
8.J. Zhao, D. D. Xiao, Q. Wan, X. J. Wei, G. Tao, Y. Liu, Y. F. Xiang, K. Davey, Z. W. Liu*, Zaiping Guo*, Yingze Song*. Molybdenum Atom Engineered Vanadium Disulfide for Boosted High-Capacity Li-Ion Storage. Small, 2023, 2301738.
9.Q. H. Shu, Y. C. Pang, Q. Q. Li, Y. Z. Gu, Z. W. Liu*, B. G. Liu, J. M. Li*, Y. Li*. Flexible Resistive Tactile Pressure Sensors. Journal of Materials Chemistry A, 2024.
10.Y. Li; P. P. Ding; Y. Z. Gu; L. L. Wang; Y. C. Pang; J. Y. Feng; B. G. Liu; Q. Wan; P. Li; Z. W. Liu*. Self-healable Gels in Electrochemical Energy Storage Devices. Nano Research. 2023, 1-22.
11.Z. W. Liu; L. N. Yue; C. Y. Wang; D. Y. Li; L. G. Tang; R. X. Ma; B. Li; T. R. Yang; X. Liu; Q. Xu; J. S. Wang; M. Gao. Free-standing bacterial cellulose-polypyrrole composites for potassium-ion batteries. ACS Applied Materials & Interfaces, 2023, 15, 11, 14865-14873.
12.Q. Xu, G. Yang, C. Y. Wang, Z. W. Liu*, X. Y. Zhang, Z. R. Li, S. P. Lohani, Y. Q. Zhao*, Y. X. Xiong*, Y. L. Ding. Experimental study on the reinforcement of a gravity heat pipe based on a latent thermal functionally fluid. Energy, 2023, 278: 127782.
13.P. Li; Z. W. Liu†; L. Q. Cui; F. Q. Zhai; Q. Wan; Z. L. Li; Z. G. Z. Fang; A. A. Volinsky; X. H. Qu. Tungsten carbide synthesized by low-temperature combustion as gas diffusion electrode catalyst. International Journal of Hydrogen Energy, 2014, 39(21): 10911-10920.
14.Z. W. Liu; P. Li; Y. Dong; Q. Wan; F. Q. Zhai; A. A. Volinsky; X. H. Qu. Facile preparation of hexagonal WO3·0.33H2O/C nanostructures and its electrochemical properties for lithium-ion batteries. Applied Surface Science, 2017, 394: 70-77.
15.Z. W. Liu*, B. W. Li, K. B. Ma, J. W. Lu, Q. Wang, H. Su*, X. F. Hu, J. X. Gao, Q. Xu*, H. Guo*. Application and prospects of Ni–Mn–based layered oxide cathodes for sodium-ion batteries. ACS Applied Energy Materials, 2024, 7: 3502-3522.
16.Y. Zhao, K. Feng, Q. Xv, Y. F. Qin, S. Y. Song, Z. W. Liu*, X. J. Wang*. Preparation of sandwich-structured V6O13 via direct current magnetron sputtering for high-capacity zinc-ion batteries. Nanoscale, 2025, 17: 2889-2896.
17.X. L. Chen, L. Ren, Q. Zheng, G. Yang, N. Akkurt, L. Liu, Z. W. Liu*, Y. J. Qiang*, H. C. Yang*, Q. Xu*, Y. L. Ding. Heat loss optimization and economic evaluation of a new fourth generation district heating triple pipe system. Applied Thermal Engineering, 2023, 233: 121160.
18.Z. W. Liu; P. Li; Q. Wan; D. Y. Zhang; A. A. Volinsky; X. H. Qu. Low-temperature combustion synthesis of hexagonal WO3·0.33H2O@C as anode material for lithium ion batteries. Journal of Alloys and Compounds, 2017, 701: 215-221.
19.Z. W. Liu; Yang Li; Juan Fang; Qi Wan. Investigation of Nanoscale Tungsten Carbide Enhanced Surface Carbon as a Platinum Support for the Hydrogen Evolution Reaction. Nanomaterials, 2023,13(8): 1369.
20.Q. Xu, L. D. Zhu, Y. P. Pei, C. X. Yang, D. Yang, Z. W. Liu*, B. Guan*, Y. J. Qiang, H. C. Yang*, Y. Zang, Y. L. Ding. Heat transfer enhancement performance of microencapsulated phase change materials latent functional thermal fluid in solid/liquid phase transition regions. International Journal of Heat and Mass Transfer, 2023, 214: 124461.
21.Q. Xu, Z. K. Shu, T. C. Du, A. I. Aminova, G. T. Guria, Q. Wang, Z. H. Chen, X. B. Gu, N. Akkurt, H. Y. Chen, Z. W. Liu*. Analyses of the mechanical characteristics of long-distance crude oil pipeline support assembly on "L"-type pipeline. Ocean Engineering, 2025, 340: 122266.
22.Z. Q. Cao; C. Y. Cheng; Z. W. Liu*. Controlled solution combustion synthesis of Ni incorporated rice-shape V2O5 cathode material for stable lithium ion battery. Materials Chemistry and Physics, 2023, 309.
23.Z. W. Liu; P. Li; F. Q. Zhai; Q. Wan; A. A. Volinsky; X. H. Qu. Amorphous carbon modified nano-sized tungsten carbide as a gas diffusion electrode catalyst for the oxygen reduction reaction. RSC Advances, 2015, 5(87): 70743-70748.
24.X. Lu; J. Z. Sun; Z. W. Liu*; Y. Pan; Y. Li; Y. W. Lin; X. H. Qu. Scalable synthesis of hollow MoS2 nanoparticles modified on porous Ni for improved hydrogen evolution reaction. Journal of The Electrochemical Society, 2021, 168: 056519.
2.Z. W. Liu; K. Han; P. Li; W. Wang; D. L. He; Q. W. Tan; L. Y. Wang; Y. Li; M. L. Qin; X. H. Qu. Tuning metallic Co0.85Se quantum dots/carbon hollow polyhedrons with tertiary hierarchical structure for high-performance potassium ion batteries. Nano-Micro Letters, 2019,11: 96.
3.Z. W. Liu; H. Su; Y. B. Yang; T. H. Wu; S. H. Sun; H. J. Yu. Advances and Perspectives on Transitional Metal Layered Oxides for Potassium-Ion Battery. Energy Storage Materials, 2021, 34: 211-228.
4.Z. W. Liu; X. T. Huo; K. Xi; P. Li; L. N. Yue; M. Huang; G. Q. Suo; L. Xu; W. Wang; X. H. Qu. Thickness controllable and mass produced WC@C@Pt hybrid for efficient hydrogen production. Energy Storage Materials, 2018, 10: 268-274.
5.K. Han†; Z. W. Liu†; P. Li; Q. Y. Yu; W. A. Wang; C. Y. Lao; D. L. He; W. Zhao; G. Q. Suo; H. Guo; L. Song; M. L. Qin; X. H. Qu. High-throughput fabrication of 3D N-doped graphenic framework coupled with Fe3C@ porous graphite carbon for ultrastable potassium ion storage. Energy Storage Materials, 2019, 22: 185-193. (†共一)
6.N. Han, S. H. Feng, W. Guo, O. M. Mora, X. L. Zhao*, W. Zhang, S. J. Xie, Z. Y. Zhou, Z. W. Liu*, Q. Liu, K. Wan, X. Zhang*, J. Fransaer*. Rational design of Ruddlesden-Popper perovskite electrocatalyst for oxygen reduction to hydrogen peroxide." SusMat, 2022, 2(4): 456-465. (热点论文)
7.Z. W. Liu; D. He; B. Y. Wang; T. H. Wu; S. M. He; Y. L; S. H. Sun; H. J. Yu. A low voltage Na2TiGeO5 anode for ultrastable lithium ion batteries. Small, 2022, 18(14): 2107608.
8.J. Zhao, D. D. Xiao, Q. Wan, X. J. Wei, G. Tao, Y. Liu, Y. F. Xiang, K. Davey, Z. W. Liu*, Zaiping Guo*, Yingze Song*. Molybdenum Atom Engineered Vanadium Disulfide for Boosted High-Capacity Li-Ion Storage. Small, 2023, 2301738.
9.Q. H. Shu, Y. C. Pang, Q. Q. Li, Y. Z. Gu, Z. W. Liu*, B. G. Liu, J. M. Li*, Y. Li*. Flexible Resistive Tactile Pressure Sensors. Journal of Materials Chemistry A, 2024.
10.Y. Li; P. P. Ding; Y. Z. Gu; L. L. Wang; Y. C. Pang; J. Y. Feng; B. G. Liu; Q. Wan; P. Li; Z. W. Liu*. Self-healable Gels in Electrochemical Energy Storage Devices. Nano Research. 2023, 1-22.
11.Z. W. Liu; L. N. Yue; C. Y. Wang; D. Y. Li; L. G. Tang; R. X. Ma; B. Li; T. R. Yang; X. Liu; Q. Xu; J. S. Wang; M. Gao. Free-standing bacterial cellulose-polypyrrole composites for potassium-ion batteries. ACS Applied Materials & Interfaces, 2023, 15, 11, 14865-14873.
12.Q. Xu, G. Yang, C. Y. Wang, Z. W. Liu*, X. Y. Zhang, Z. R. Li, S. P. Lohani, Y. Q. Zhao*, Y. X. Xiong*, Y. L. Ding. Experimental study on the reinforcement of a gravity heat pipe based on a latent thermal functionally fluid. Energy, 2023, 278: 127782.
13.P. Li; Z. W. Liu†; L. Q. Cui; F. Q. Zhai; Q. Wan; Z. L. Li; Z. G. Z. Fang; A. A. Volinsky; X. H. Qu. Tungsten carbide synthesized by low-temperature combustion as gas diffusion electrode catalyst. International Journal of Hydrogen Energy, 2014, 39(21): 10911-10920.
14.Z. W. Liu; P. Li; Y. Dong; Q. Wan; F. Q. Zhai; A. A. Volinsky; X. H. Qu. Facile preparation of hexagonal WO3·0.33H2O/C nanostructures and its electrochemical properties for lithium-ion batteries. Applied Surface Science, 2017, 394: 70-77.
15.Z. W. Liu*, B. W. Li, K. B. Ma, J. W. Lu, Q. Wang, H. Su*, X. F. Hu, J. X. Gao, Q. Xu*, H. Guo*. Application and prospects of Ni–Mn–based layered oxide cathodes for sodium-ion batteries. ACS Applied Energy Materials, 2024, 7: 3502-3522.
16.Y. Zhao, K. Feng, Q. Xv, Y. F. Qin, S. Y. Song, Z. W. Liu*, X. J. Wang*. Preparation of sandwich-structured V6O13 via direct current magnetron sputtering for high-capacity zinc-ion batteries. Nanoscale, 2025, 17: 2889-2896.
17.X. L. Chen, L. Ren, Q. Zheng, G. Yang, N. Akkurt, L. Liu, Z. W. Liu*, Y. J. Qiang*, H. C. Yang*, Q. Xu*, Y. L. Ding. Heat loss optimization and economic evaluation of a new fourth generation district heating triple pipe system. Applied Thermal Engineering, 2023, 233: 121160.
18.Z. W. Liu; P. Li; Q. Wan; D. Y. Zhang; A. A. Volinsky; X. H. Qu. Low-temperature combustion synthesis of hexagonal WO3·0.33H2O@C as anode material for lithium ion batteries. Journal of Alloys and Compounds, 2017, 701: 215-221.
19.Z. W. Liu; Yang Li; Juan Fang; Qi Wan. Investigation of Nanoscale Tungsten Carbide Enhanced Surface Carbon as a Platinum Support for the Hydrogen Evolution Reaction. Nanomaterials, 2023,13(8): 1369.
20.Q. Xu, L. D. Zhu, Y. P. Pei, C. X. Yang, D. Yang, Z. W. Liu*, B. Guan*, Y. J. Qiang, H. C. Yang*, Y. Zang, Y. L. Ding. Heat transfer enhancement performance of microencapsulated phase change materials latent functional thermal fluid in solid/liquid phase transition regions. International Journal of Heat and Mass Transfer, 2023, 214: 124461.
21.Q. Xu, Z. K. Shu, T. C. Du, A. I. Aminova, G. T. Guria, Q. Wang, Z. H. Chen, X. B. Gu, N. Akkurt, H. Y. Chen, Z. W. Liu*. Analyses of the mechanical characteristics of long-distance crude oil pipeline support assembly on "L"-type pipeline. Ocean Engineering, 2025, 340: 122266.
22.Z. Q. Cao; C. Y. Cheng; Z. W. Liu*. Controlled solution combustion synthesis of Ni incorporated rice-shape V2O5 cathode material for stable lithium ion battery. Materials Chemistry and Physics, 2023, 309.
23.Z. W. Liu; P. Li; F. Q. Zhai; Q. Wan; A. A. Volinsky; X. H. Qu. Amorphous carbon modified nano-sized tungsten carbide as a gas diffusion electrode catalyst for the oxygen reduction reaction. RSC Advances, 2015, 5(87): 70743-70748.
24.X. Lu; J. Z. Sun; Z. W. Liu*; Y. Pan; Y. Li; Y. W. Lin; X. H. Qu. Scalable synthesis of hollow MoS2 nanoparticles modified on porous Ni for improved hydrogen evolution reaction. Journal of The Electrochemical Society, 2021, 168: 056519.
专利
1.一种溶液燃烧合成制备碳化钨负载铂催化剂的方法;ZL201510836537.6。
2.一种制备六方结构WO30.33H2O/C粉末的方法;ZL201610248099.6。
3.一种中空KMnF3纳米正方体颗粒的制备方法;ZL201710947281.5。
4.一种中空Co0.85Se纳米多面体颗粒的制备方法;ZL201710947140.3。
5.一种蛋黄-壳结构Co9Se8纳米颗粒的制备方法;ZL201710947163.4。
6.一种蛋黄-壳结构CrF33H2O的制备方法;ZL201710946633.5。
7.铁基催化剂修饰三维石墨烯限域的高容量储氢材料的方法;ZL201810116860.X。
8.一种钾离子电池负极材料用三维骨架状CoSe2电极的制备方法;ZL201810509082.0。
9.铁基合金纳米颗粒修饰三维多孔氮掺杂石墨烯的制备方法;ZL201810116859.7。
10.三维多孔氮掺石墨烯复合材料及氮掺杂石墨烯的制备方法;ZL 201810116559.9。
11.一种液态金属电池装置及其装配方法;ZL201710593690.X。
12.一种高能量密度的液态金属电池;ZL201710541086.2。
13.一种钾离子电池用负极材料及制备方法和电解液;ZL201810427488.4。
14.一种高通量材料芯片四探针原位电阻测量设备;ZL201721402811.X。
15.一种KCoF3中空纳米颗粒及其制备方法和应用;ZL201810384696.0。
16.一种中空结构的KFeF3纳米材料及其制备方法和应用;ZL201810377906.3。
17.一种生产纳米碳化钒粉末的方法;ZL201410785489.8。
18.一种磷化铁负载石墨烯泡沫复合材料的制备方法;ZL201910398149.2。
19.一种气体冷凝可视化及换热特性检测装置和方法;ZL202110261898.8。
20. 钾离子电池正极材料用锂掺杂锰基层状氧化物的制备方法; ZL20231 0057279.6。
2.一种制备六方结构WO30.33H2O/C粉末的方法;ZL201610248099.6。
3.一种中空KMnF3纳米正方体颗粒的制备方法;ZL201710947281.5。
4.一种中空Co0.85Se纳米多面体颗粒的制备方法;ZL201710947140.3。
5.一种蛋黄-壳结构Co9Se8纳米颗粒的制备方法;ZL201710947163.4。
6.一种蛋黄-壳结构CrF33H2O的制备方法;ZL201710946633.5。
7.铁基催化剂修饰三维石墨烯限域的高容量储氢材料的方法;ZL201810116860.X。
8.一种钾离子电池负极材料用三维骨架状CoSe2电极的制备方法;ZL201810509082.0。
9.铁基合金纳米颗粒修饰三维多孔氮掺杂石墨烯的制备方法;ZL201810116859.7。
10.三维多孔氮掺石墨烯复合材料及氮掺杂石墨烯的制备方法;ZL 201810116559.9。
11.一种液态金属电池装置及其装配方法;ZL201710593690.X。
12.一种高能量密度的液态金属电池;ZL201710541086.2。
13.一种钾离子电池用负极材料及制备方法和电解液;ZL201810427488.4。
14.一种高通量材料芯片四探针原位电阻测量设备;ZL201721402811.X。
15.一种KCoF3中空纳米颗粒及其制备方法和应用;ZL201810384696.0。
16.一种中空结构的KFeF3纳米材料及其制备方法和应用;ZL201810377906.3。
17.一种生产纳米碳化钒粉末的方法;ZL201410785489.8。
18.一种磷化铁负载石墨烯泡沫复合材料的制备方法;ZL201910398149.2。
19.一种气体冷凝可视化及换热特性检测装置和方法;ZL202110261898.8。
20. 钾离子电池正极材料用锂掺杂锰基层状氧化物的制备方法; ZL20231 0057279.6。
获奖
1. 第八届全国大学生冶金科技竞赛一等奖指导教师
2. 面向工业节能减排的余热高效利用与储存关键技术及应用, 中国商业联合会科技进步一等奖(R5)
3. 北京科技大学能环学院“优秀全程导师”
4. 广东“众创杯”创业创新大赛团队组优胜奖
5. 北京科技大学优秀毕业生、北京科技大学校长奖学金
6. 第十二届中国国际电池技术交流会“青年优秀墙报论文奖”
2. 面向工业节能减排的余热高效利用与储存关键技术及应用, 中国商业联合会科技进步一等奖(R5)
3. 北京科技大学能环学院“优秀全程导师”
4. 广东“众创杯”创业创新大赛团队组优胜奖
5. 北京科技大学优秀毕业生、北京科技大学校长奖学金
6. 第十二届中国国际电池技术交流会“青年优秀墙报论文奖”
代表性科研项目
1. 国家自然科学基金面上项目,锰基层状氧化物功能基元高熵化结构调控和储钾机理、2026/01/01-2029/12/31、主持
2. 国家自然科学基金青年项目,锰基层状氧化物畴结构调控及储钾机制、2023/01/01-2025/12/31、主持
3. 科技部国家外国专家项目,硅基氧化物层状结构调控及储锂机制、2023/01/01-2024/12/31、主持
4. 新能源企业项目,层状氧化物钠离子电池正极结构失效机制研究、2024/05/27-2026/05/26、主持
5. 中央高校基本科研业务费,铜锰基层状氧化物局域结构设计及储钠机制研究、2022/11-2024/10、主持
6. 河北省危险化学品安全与控制技术重点实验室开放课题,钾离子电池负极材料用硫化铁修饰三维碳纤维海绵的研究、2021/12-2022/12、主持
7. 国家重点研发计划重点专项,高海拔超长深埋隧道复杂恶劣施工环境综合供氧技术研究、2021/12/01-2024/11/30、参加
8. 国家自然科学基金面上项目,晶体-熔体共存的多元硅酸盐体系晶体生长动力学特性及复杂流变行为、2023/01/01-2026/12/31、参加
9. 国家自然科学基金面上项目,铝-硫电池用AlCl3/乙酰胺电解液改性研究、2021/01/01-2024/12/31、参加
2. 国家自然科学基金青年项目,锰基层状氧化物畴结构调控及储钾机制、2023/01/01-2025/12/31、主持
3. 科技部国家外国专家项目,硅基氧化物层状结构调控及储锂机制、2023/01/01-2024/12/31、主持
4. 新能源企业项目,层状氧化物钠离子电池正极结构失效机制研究、2024/05/27-2026/05/26、主持
5. 中央高校基本科研业务费,铜锰基层状氧化物局域结构设计及储钠机制研究、2022/11-2024/10、主持
6. 河北省危险化学品安全与控制技术重点实验室开放课题,钾离子电池负极材料用硫化铁修饰三维碳纤维海绵的研究、2021/12-2022/12、主持
7. 国家重点研发计划重点专项,高海拔超长深埋隧道复杂恶劣施工环境综合供氧技术研究、2021/12/01-2024/11/30、参加
8. 国家自然科学基金面上项目,晶体-熔体共存的多元硅酸盐体系晶体生长动力学特性及复杂流变行为、2023/01/01-2026/12/31、参加
9. 国家自然科学基金面上项目,铝-硫电池用AlCl3/乙酰胺电解液改性研究、2021/01/01-2024/12/31、参加