师资队伍
张海娇

7AD2

职称:研究员,博士生导师

系所:纳米化学与生物学研究所

办公室:亚星221net宝山校区E201室

E-mail:hjzhang128@shu.edu.cn


个人简介

华东师范大学化学博士(师从何鸣元院士),澳大利亚昆士兰大学高级访问学者,亚星221net/纳米化学与生物学研究所研究员(破格晋升),博士生导师,上海市浦江人才和曙光学者。主要从事碳基和硅基多孔纳米材料的可控制备在能源存储(锂/钠/钾离子电池)和催化等领域中的应用研究。目前已发表SCI论文140余篇,他引超过6000次,并入选英国皇家化学会高被引学者榜单;授权国家发明专利30余项。主持国家自然科学基金、教育部高等学校博士点基金、上海市人才计划、上海市自然科学基金、上海市科研创新项目、上海市政府和企业委托研发等课题。获得上海市技术发明奖三等奖、最具技术交易潜力奖、陈嘉庚青少年发明奖、亚星221net科研创新贡献奖,《Nano Research》优秀编委、亚星221net优秀青年教师、华东师范大学优秀毕业生等称号。担任科技部国家重点研发计划等评审专家,同时担任Nano Research客座编辑、Nano-Micro Letters、eScience、Nano Research、Advanced Fiber Materials、Nano Research Energy等期刊青年编委。


研究方向

1. 多孔纳米材料的可控制备

2. 低维复合纳米结构的功能化设计

3. 锂/钠/钾离子新能源电池应用研究

4. 光电催化性能的应用研究


代表性论文(2018年至今)

1. H. J. Zhang,* et al., Hydrated Bi-Ti-bimetal ethylene glycol: A new high-capacity and stable anode material for potassium-ion batteries. Adv. Funct. Mater., 2023, 33, 2300582.

2. H. J. Zhang,* et al., Fundamental understanding and facing challenges in structural design of porous Si-based anodes for lithium-ion batteries. Adv. Funct Mater., 2023, 33, 2301109.

3. H. J. Zhang,* et al., Multifunctional layered bismuth oxychloride/amorphous antimony oxide hetero-hybrids as superior photocatalyst and potassium ion storage materials. Appl. Catal. B: Environ., 2023, 321, 122032.

4. H. J. Zhang,* et al., Oxygenated triazine-heptazine heterostructure creates an enormous ascension to the visible light photocatalytic hydrogen evolution performance of porous C3N4 nanosheets. Small, 2023, 19, 2301579.

5. H. J. Zhang,* et al., Controllable assembly of nitrogen-doped mesoporous carbon with different pore structures onto CNTs for excellent lithium storage. Nano Res., 2023, 16, 3879-3887.

6. H. J. Zhang,* et al., Hierarchically heterostructured Ni(OH)2/Fe-Ni2P nanoarray: A synergistic electrocatalyst for accelerating alkaline hydrogen evolution. ACS Sus. Chem. Eng., 2023, 11, 458-463.

7. H. J. Zhang,* et al., Interfacial encapsulation stress management of micron-sized porous SiO anodes for high-energy lithium-ion batteries. J. Mater. Chem. A, 2023, 11, 972-982.

8. H. J. Zhang,* et al., Interfacial growth of N,S-codoped mesoporous carbon onto biomass-derived carbon for superior potassium-ion storage. Nano Res., 2023, DOI: 10.1007/s12274-023-6045-8.

9. H. J. Zhang,* et al., Recent progress on asymmetric carbon- and silica-based nanoparticles: From synthetic strategies to their applications. Nano-Micro Lett., 2022, 14, 45.

10. H. J. Zhang,* et al., Coupling Fe3O4/Fe1-xS@carbon with carbon-coated MoS2 nanosheets as a superior anode for sodium-ion batteries. Chem. Eng. J., 2022, 427, 131652.

11. H. J. Zhang,* et al., Pumpkin-like MoP-MoS2@Aspergillus niger spore-derived N-doped carbon heterostructure for enhanced potassium storage. J. Energy Chem., 2022, 72, 479-486.

12. H. J. Zhang,* et al., K-functionalized carbon quantum dots induced interface assembly of carbon nanocages for ultrastable potassium storage. Small Methods, 2022, 6, 202101627.

13. H. J. Zhang,* et al., Carbon-coated MoS2 nanosheets@CNTs-Ti3C2Tx MXene quaternary composite with the superior rate performance for sodium-ion batteries. J. Mater. Sci. Tech., 2022, 100, 101-109.

14. H. J. Zhang,* et al., In-situ conversion growth of carbon-coated MoS2@N-doped carbon nanotubes as anodes with superior capacity retention for sodium-ion batteries. J. Mater. Sci. Tech., 2022, 102, 8-15.

15. H. J. Zhang,* et al., Engineering two-dimensional metal oxides and chalcogenides for enhanced electro- and photocatalysis. Sci. Bull., 2021, 66, 1228-1252.

16. H. J. Zhang,* et al., Microscale Si-based anodes: Fundamental understanding and industrial prospects for practical high-energy lithium-ion batteries, ACS Nano, 2021, 15, 15567-15593.

17. H. J. Zhang,* et al., Free-standing ultra-thin Janus indium oxysulfide ultrasensitive visible-light-driven optoelectronic chemical sensing. Nano Today, 2021, 37, 101096.

18. H. J. Zhang,* et al., Sn-based nanomaterials: from composition and structural design to their electrochemical performances for Li- and Na-ion batteries. Energy Storage Mater., 2021, 43, 430-462.

19. H. J. Zhang,* et al., Leaf-inspired design of mesoporous Sb2S3/N-doped Ti3C2Tx MXene composites towards fast sodium storage. Sci. China Chem., 2021, 64, 964-973.

20. H. J. Zhang,* et al., Structure design and composition engineering of carbon-based nanomaterials for lithium energy storage. Adv. Energy Mater., 2020, 1903030.

21. H. J. Zhang,* et al., Ti3C2TX MXene nanosheets as a robust and conductive tight on Si anodes significantly enhance electrochemical lithium storage performance. ACS Nano, 2020, 202000625.

22. H. J. Zhang,* et al., Mitigating the polysulfides shuttling with TiO2 nanowires/nanosheets hybrid modified separators for robust lithium-sulfur batteries. Chem. Eng. J., 2020, 387, 124080.

23. H. J. Zhang,* et al., Synthesis of two-dimensional hematite and iron phosphide for hydrogen evaluation. J. Mater. Chem. A, 2020, 8, 2789-2797.

24. H. J. Zhang,* et al., Three-dimensional MoS2/carbon sandwiched architecture for boosted lithium storage capability. Nano Energy, 2019, 65, 104061.

25. H. J. Zhang,* et al., Ultralarge interlayer distance and C,N-codoping enable superior sodium storage capabilities of MoS2 nanoonions. Chem. Eng. J., 2019, 378, 122249.

26. H. J. Zhang,* et al., Yolk-shell Si/C composites with multiple Si nanoparticles encapsulating into double carbon shells as lithium-ion battery anodes. J. Energy Chem., 2019, 32, 124-130.

27. H. J. Zhang,* et al., Interfacial engineering of 0D/2D SnS2 heterostructure onto N-doped graphene for boosted lithium storage capability. J. Colloid Interface Sci., 2019, 538, 116-124.

28. H. J. Zhang,* et al., Strong coupling of MoS2 nanosheets and nitrogen-doped graphene for high-performance pseudocapacitance lithium storage. Small, 2018, 14, 1704410.

29. H. J. Zhang,* et al., Ultrathin MoS2 nanosheets tightly anchoring onto nitrogen-doped graphene for enhanced lithium storage properties. Chem. Eng. J., 2018, 332, 431-439.

30. H. J. Zhang,* et al., Controllable growth of SnS2 nanostructures on nanocarbon surfaces for lithium-ion and sodium-ion storage with high rate capability. J. Mater. Chem. A, 2018, 6, 1462-1472.


科研项目

1. 国家自然科学基金面上项目等

2. 教育部高等学校博士点基金

3. 上海市曙光学者计划

4. 上海市浦江人才计划

5. 上海市人才发展基金

6. 上海市自然科学基金

7. 上海市技术标准专项

8. 上海市政府决策咨询专项

9. 上海市教委科研创新项目

10. 上海市高校青年教师培养资助计划


教授课程

本科生研讨课《多孔纳米材料》

本科生通识课《艺术中的化学》



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