头像
更新时间:2025.04.30
总访问量:10

张健力

| 博士 研究员 硕士生导师

单位:

职务:

研究方向:

办公地址: 莫干山校区材料楼A326

办公电话:

电子邮箱: zhangjianli@zjut.edu.cn
手机访问

  • 个人简介

    张健力,浙江杭州人,博士,朝晖特聘研究员,硕士生导师。近年来主要从事研究方向为金属能源材料、锂离子电池、多外场辅助电池性能提升等,发表SCI论文40余篇,以第一/通讯作者身份在ACS NanoAdvanced Functional MaterialsNano EnergyACS Applied Materials & InterfacesJournal of Alloys and Compounds等国际知名期刊发表SCI论文13篇,授权发明专利6项。主持国家自然科学基金青年基金、浙江省自然科学基金中国博士后基金,参与浙江省重大研发计划-尖兵领雁(瑞浦兰钧牵头,校内负责人)国家自然科学基金优青项目、面上项目等。兼任《稀有金属》期刊青年编委。

     

    工作经历:

     

    2022.11-至今      浙江工业大学    材料科学与工程学院    朝晖特聘研究员

    2020.06-2022.10   浙江工业大学    材料科学与工程学院    博士后

    2019.06-2020.05   新城控股        管培生

     

    教育经历:

     

    2014.09-2019.06   南京理工大学          材料科学与工程    博士

    2017.01-2018.08   新加坡南洋理工大学    材料科学与工程    联合培养博士

    2010.09-2014.06   南京理工大学          材料化学          学士


  • 教学与课程

    教学:


    本科课程:《现代材料测试技术》、 《工程经济分析与工程管理》 

    研究生课程:《材料结构性能与应用》

  • 科研项目

    1.    浙江省“尖兵领雁+X”科技计划,长寿命、高能量密度全固态锂电池,2025C01182,1000万,2025-2026,第二单位,参与单位负责人;

    2.    国家自然科学基金青年项目,微磁场促进锂金属负极固体电解质界面形成与修复的研究,52202315,30万,2023-2025,主持;

    3.    中国博士后科学基金面上项目,铁磁性改性隔膜对锂硫电池电化学性能影响的机理研究,2021M702890,8万,2021-2022,主持;

    4.    浙江省自然科学基金探索青年项目,微磁场介入提升锂硫电池性能的机理研究,LQ22E020005,10万,2022-2024,主持。


  • 科研成果

    论文:

    1. Zhang J, Du C, Dai Z, Chen W, Zheng Y, Li B, Zong Y, Wang X, Zhu J*, Yan Q*. NbS2 nanosheets with M Se (M = Fe, Co, Ni) codopants for Li+ and Na+ storage[J]. ACS Nano, 2017, 11(10): 10599-10607. 

    2. Zhang J, Li Y, Zhang Y, Qian X, Niu R, Hu R, Zhu X, Wang X, Zhu J*. The enhanced adhesion between overlong TiNxOyMnO2 nanoarrays and Ti substrate: Towards flexible supercapacitors with high energy density and long service life[J]. Nano Energy, 2018, 43: 91-102.

    3. Zhang J, Du C, Zhao J, Ren H, Liang Q, Zheng Y, Madhavi S, Wang X, Zhu J*, Yan Q*. CoSe2-decorated NbSe2 nanosheets fabricated via cation exchange for Li storage[J]. ACS Applied Materials & Interfaces, 2018, 10(44): 37773-37778. 

    4. Zhang J, Chen H, Fan B, Shan H, Chen Q, Jiang C, Hou G, Tang Y*. Study on the relationship between crystal plane orientation and strength of electrolytic copper foil[J]. JournalofAlloysandCompounds, 2021, 884: 161044. 

    5. Zhang J, Chen H, Wen M, Shen K, Chen Q, Hou G, Tang Y*. Lithiophilic 3D copper-based magnetic current collector for lithium-free anode to realize deep lithium deposition[J]. Advanced Functional Materials, 2022, 32(13): 2110110. 

    6. Zhang J, Cheng Y, Chen H, Wang Y, Chen Q, Hou G, Wen M*, Tang Y*MoP quantum dots modified N,P-carbon nanotubes as a multifunctional separator coating for high performance lithium-sulfur batteries[J]. ACS Applied Materials & Interfaces, 2022, 14(14): 16289-16299. 

    7. Zhang J, Zhou Z, Wang Y, Chen Q, Hou G, Tang Y*. Ultrasonic-assisted enhancement of lithium-oxygen battery[J]. Nano Energy, 2022: 107655. 

    8.  Zhang J, Zhou Z, Wang Y, Chen Q, Hou G, Tang Y*. Pulsed Current Boosts the Stability of the Lithium Metal Anode and the Improvement of Lithium–Oxygen Battery Performance[J]. ACS Applied Materials & Interfaces, 2022, 14(44): 50414-50423.

    9. Hou G*, Shen Z, Tang Y, Chen Q, Cao H, Zhang H, Zheng G, Zhang J*. Ni-WC nanoparticles/carbon aerogel electrocatalytic electrode for methanol and urea electrooxidation[J]. International Journal of Hydrogen Energy, 2023, 48(3): 991-1000.

    10. Zhang J, Zuo D, Pei X, Mu C, Chen K, Chen Q, Hou G, Tang Y*. Effects of Electrolytic Copper Foil Roughness on Lithium-Ion Battery Performance[J]. Metals, 2022, 12(12): 2110.

    11. Zhang J, Wang Y, Zhou Z, Chen Q, Tang Y*Mo2C-Loaded Porous Carbon Nanosheets as a Multifunctional Separator Coating for High-Performance Lithium-Sulfur Batteries[J]. Materials, 2023, 16(4): 1635.

    12. Zhou Z, Chen Q, Wang Y, Hou G, Zhang J*, Tang Y*. Pulsed Current Constructs 3DM CuZnO Current Collector Composite Anode for Free-Dendritic Lithium Metal Batteries[J]. Batteries, 2023, 9(3): 188

    13. Mei J, Hou G*, Zhang H, Chen Q, Cao H, Tang Y, Zhang J*, Zheng G. Convenient construction of porous dendritic Cu-doped Ni-PPy stainless steel mesh electrode for oxidation of methanol and urea[J]. Applied Surface Science, 2023, 623: 156930.

    14. Hou G*, Wei J, Chen Q, Zhang J*, Tang Y. Electrooxidation performance of a cotton-cloth-derived, Ni-based, hollow microtubular weave catalytic electrode for methanol and urea[J]. Metals, 2023, 13(4): 659.

    15. Zhang J, Wang Y, Zhang Z, Chen N, Du Z, Ai Q, Chen Q, Hou G, Tang Y*. Magnetic Field Enable Lithium Ions to Penetrate Lithophilic 3D Collectors and Enhance Electrochemical Performance[J]. Phasica Scripta, 2024, 99(12): 125554.

    16. Zhang JAi Q, Du Z, Chen Q, Hou G*, Tang Y*Magnetic Field‐Driven NiCo‐3DOMC Modified Separators for Effective Lithium Polysulfide Mitigation and Catalysis[J]. Small2025, 21(6): 2410226.

    17. Zhang JDu Z, Wang Y, Chen H, Ai Q, Chen Q, Hou G*, Tang Y*Magnetic Field-Driven Ion Selectivity Boosts LiF-Rich SEI Formation for Enhanced Lithium Metal Battery Performance Across Temperatures[J]. ACS Applied Materials & Interfaces2025, 17(12): 18329-18338.


  • 个人简介

    张健力,浙江杭州人,博士,朝晖特聘研究员,硕士生导师。近年来主要从事研究方向为金属能源材料、锂离子电池、多外场辅助电池性能提升等,发表SCI论文40余篇,以第一/通讯作者身份在ACS NanoAdvanced Functional MaterialsNano EnergyACS Applied Materials & InterfacesJournal of Alloys and Compounds等国际知名期刊发表SCI论文13篇,授权发明专利6项。主持国家自然科学基金青年基金、浙江省自然科学基金中国博士后基金,参与浙江省重大研发计划-尖兵领雁(瑞浦兰钧牵头,校内负责人)国家自然科学基金优青项目、面上项目等。兼任《稀有金属》期刊青年编委。

     

    工作经历:

     

    2022.11-至今      浙江工业大学    材料科学与工程学院    朝晖特聘研究员

    2020.06-2022.10   浙江工业大学    材料科学与工程学院    博士后

    2019.06-2020.05   新城控股        管培生

     

    教育经历:

     

    2014.09-2019.06   南京理工大学          材料科学与工程    博士

    2017.01-2018.08   新加坡南洋理工大学    材料科学与工程    联合培养博士

    2010.09-2014.06   南京理工大学          材料化学          学士


  • 教学与课程

    教学:


    本科课程:《现代材料测试技术》、 《工程经济分析与工程管理》 

    研究生课程:《材料结构性能与应用》

  • 科研项目

    1.    浙江省“尖兵领雁+X”科技计划,长寿命、高能量密度全固态锂电池,2025C01182,1000万,2025-2026,第二单位,参与单位负责人;

    2.    国家自然科学基金青年项目,微磁场促进锂金属负极固体电解质界面形成与修复的研究,52202315,30万,2023-2025,主持;

    3.    中国博士后科学基金面上项目,铁磁性改性隔膜对锂硫电池电化学性能影响的机理研究,2021M702890,8万,2021-2022,主持;

    4.    浙江省自然科学基金探索青年项目,微磁场介入提升锂硫电池性能的机理研究,LQ22E020005,10万,2022-2024,主持。


  • 科研成果

    论文:

    1. Zhang J, Du C, Dai Z, Chen W, Zheng Y, Li B, Zong Y, Wang X, Zhu J*, Yan Q*. NbS2 nanosheets with M Se (M = Fe, Co, Ni) codopants for Li+ and Na+ storage[J]. ACS Nano, 2017, 11(10): 10599-10607. 

    2. Zhang J, Li Y, Zhang Y, Qian X, Niu R, Hu R, Zhu X, Wang X, Zhu J*. The enhanced adhesion between overlong TiNxOyMnO2 nanoarrays and Ti substrate: Towards flexible supercapacitors with high energy density and long service life[J]. Nano Energy, 2018, 43: 91-102.

    3. Zhang J, Du C, Zhao J, Ren H, Liang Q, Zheng Y, Madhavi S, Wang X, Zhu J*, Yan Q*. CoSe2-decorated NbSe2 nanosheets fabricated via cation exchange for Li storage[J]. ACS Applied Materials & Interfaces, 2018, 10(44): 37773-37778. 

    4. Zhang J, Chen H, Fan B, Shan H, Chen Q, Jiang C, Hou G, Tang Y*. Study on the relationship between crystal plane orientation and strength of electrolytic copper foil[J]. JournalofAlloysandCompounds, 2021, 884: 161044. 

    5. Zhang J, Chen H, Wen M, Shen K, Chen Q, Hou G, Tang Y*. Lithiophilic 3D copper-based magnetic current collector for lithium-free anode to realize deep lithium deposition[J]. Advanced Functional Materials, 2022, 32(13): 2110110. 

    6. Zhang J, Cheng Y, Chen H, Wang Y, Chen Q, Hou G, Wen M*, Tang Y*MoP quantum dots modified N,P-carbon nanotubes as a multifunctional separator coating for high performance lithium-sulfur batteries[J]. ACS Applied Materials & Interfaces, 2022, 14(14): 16289-16299. 

    7. Zhang J, Zhou Z, Wang Y, Chen Q, Hou G, Tang Y*. Ultrasonic-assisted enhancement of lithium-oxygen battery[J]. Nano Energy, 2022: 107655. 

    8.  Zhang J, Zhou Z, Wang Y, Chen Q, Hou G, Tang Y*. Pulsed Current Boosts the Stability of the Lithium Metal Anode and the Improvement of Lithium–Oxygen Battery Performance[J]. ACS Applied Materials & Interfaces, 2022, 14(44): 50414-50423.

    9. Hou G*, Shen Z, Tang Y, Chen Q, Cao H, Zhang H, Zheng G, Zhang J*. Ni-WC nanoparticles/carbon aerogel electrocatalytic electrode for methanol and urea electrooxidation[J]. International Journal of Hydrogen Energy, 2023, 48(3): 991-1000.

    10. Zhang J, Zuo D, Pei X, Mu C, Chen K, Chen Q, Hou G, Tang Y*. Effects of Electrolytic Copper Foil Roughness on Lithium-Ion Battery Performance[J]. Metals, 2022, 12(12): 2110.

    11. Zhang J, Wang Y, Zhou Z, Chen Q, Tang Y*Mo2C-Loaded Porous Carbon Nanosheets as a Multifunctional Separator Coating for High-Performance Lithium-Sulfur Batteries[J]. Materials, 2023, 16(4): 1635.

    12. Zhou Z, Chen Q, Wang Y, Hou G, Zhang J*, Tang Y*. Pulsed Current Constructs 3DM CuZnO Current Collector Composite Anode for Free-Dendritic Lithium Metal Batteries[J]. Batteries, 2023, 9(3): 188

    13. Mei J, Hou G*, Zhang H, Chen Q, Cao H, Tang Y, Zhang J*, Zheng G. Convenient construction of porous dendritic Cu-doped Ni-PPy stainless steel mesh electrode for oxidation of methanol and urea[J]. Applied Surface Science, 2023, 623: 156930.

    14. Hou G*, Wei J, Chen Q, Zhang J*, Tang Y. Electrooxidation performance of a cotton-cloth-derived, Ni-based, hollow microtubular weave catalytic electrode for methanol and urea[J]. Metals, 2023, 13(4): 659.

    15. Zhang J, Wang Y, Zhang Z, Chen N, Du Z, Ai Q, Chen Q, Hou G, Tang Y*. Magnetic Field Enable Lithium Ions to Penetrate Lithophilic 3D Collectors and Enhance Electrochemical Performance[J]. Phasica Scripta, 2024, 99(12): 125554.

    16. Zhang JAi Q, Du Z, Chen Q, Hou G*, Tang Y*Magnetic Field‐Driven NiCo‐3DOMC Modified Separators for Effective Lithium Polysulfide Mitigation and Catalysis[J]. Small2025, 21(6): 2410226.

    17. Zhang JDu Z, Wang Y, Chen H, Ai Q, Chen Q, Hou G*, Tang Y*Magnetic Field-Driven Ion Selectivity Boosts LiF-Rich SEI Formation for Enhanced Lithium Metal Battery Performance Across Temperatures[J]. ACS Applied Materials & Interfaces2025, 17(12): 18329-18338.


链接

更新时间:2025.04.30
总访问量:10