性别

男

学历学位

研究生，工学博士

职称

教授

导师类型

博导、硕导

联系电话

13302193258

所属学院

材料科学与工程

Email

zhanghongzhou@mail.nankai.edu.cn

学术兼职

中电科十八所客座研究员、SCI期刊审稿人

招生专业

材料科学与工程、材料与化工、储能技术（电气工程）

研究方向

新能源材料及电化学，包括：锂/钠离子电池、固态锂/钠电池、锂离子电池回收及资源化利用、锂/钠离子电池Pack技术。

1、科研项目

[1]. 国家自然基金面上项目，2023.1-2026.12，在研，主持

[2]. 国家自然基金面上项目，2025.1-2028.12，在研，主持

[3]. 天津市“项目+团队”创新类B级团队合作课题，25万元，2021.1-2023.12，主持

[4]. 天津市科技支撑重点项目（合作），2017.04   - 2019.09，30万元，结题，主持

2、论文、专著：近期代表作

[1] Yang, Y.;   Tian, R.; Zhang*, H.; Wang*, Z.; Zhang, L.; Yang, Y.; Song*, D. Preparation   of high-quality lithium sulfide by reducing lithium sulfate with hydrogen: A   green and cost-effective method. Green   Chem. 2024, 26, 7231-7245.

[2] Hou, P.;   Gong, M.; Dong, M.; Lin, Z.; Huang*, J.; Zhang*, H.; Li*, F. The emerging   high-entropy cathode materials for advanced Na-ion batteries: advances and   perspectives. Energy Storage Mater. 2024,   72, 103750.

[3] Gao, M.;   Sun, F.; Peng, W.; Dai, W.; Zhang, Z.; Zhang, L.; Zhang*, H.; Ma, Y.; Zhang,   L.; Song*, D. Green and efficient method for the realization of   full-component recovery of LiFePO₄ black powder. Green Chem. 2024, 26, 7377-7383.

[4] Tian, R.   Z.; Wang, Z. Y.; Liao, J. G.; Zhang*, H. Z.; Song*, D. W.; Zhu, L. Y.;   Zhang*, L. Q. High-voltage stability of small-size single crystal Ni-rich   layered cathode for sulfide-based all-solid-state lithium battery at 4.5 V. Adv. Energy Mater. 2023, 13, 2300850.

[5] Li, C.;   Sun, Q. F.; Zhang, Q.; Xu, C. R.; Wang, S.; Ma*, Y.; Shi, X. X.; Zhang*, H.   Z.; Song, D. W.; Zhang, L. Q. Multifunctional binder capable of promoting the   reaction dynamics of wide temperature operable lithium-sulfur battery. Chem. Eng. J. 2023, 455, 140706.

[6] Yuan, S.;   Zhang*, H.; Song, D.; Ma, Y.; Shi, X.; Li, C.; Zhang*, L. Regulate the   lattice oxygen activity and structural stability of lithium-rich layered   oxides by integrated strategies. Chem.   Eng. J. 2022, 439, 135677.

[7] Na, Z.;   Lai, C.; Zhou, J.; Zhang*, H.; Song, D.; Shi, X.; Zhang*, L. Enhancing the   reversible capacity and cycle stability of lithium-ion batteries with   Li-compensation material Li₆CoO₄. Sci. China Mater. 2022, 65,   620-628.

[8] Zhou, Y.;   Zhao, K.; Zhang, J.; Zhu, Y.; Ma, Y.; Zhang*, H.; Song, D.; Shi, X.; Zhang*,   L.; Ding, Y. Synergistic effects of nanodiamond modified separators toward   highly stable and safe lithium metal batteries. J. Mater. Chem. A 2021, 9,   16046-16055.

[9] Zhou, Y.;   Zhang, J.; Zhao, K.; Ma, Y.; Zhang*, H.; Song, D.; Shi, X.; Zhang*, L.; Ding,   Y. A novel dual-protection interface based on gallium-lithium alloy enables   dendrite-free lithium metal anodes. Energy   Storage Mater. 2021, 39,   403-411.

[10] Ma, Y.;   Sun, Q.; Wang, Z.; Wang, S.; Zhou, Y.; Song, D.; Zhang*, H.; Shi, X.; Li, C.;   Zhang*, L.; Zhu, L. Improved interfacial chemistry and enhanced high   voltage-resistance capability of an in situ polymerized electrolyte for LiNi_0.8Co_0.15Al_0.05O₂–Li   batteries. J. Mater. Chem. A 2021, 9, 3597-3604.

3、其他

[1] 天津市科学技术进步二等奖，废旧动力磷酸铁锂电池梯次利用、无害化拆解及再资源化技术，2020，R8

[2] 天津市科学技术进步二等奖，高比能硅系复合负极材料关键技术与产业化应用，2022，R6