王舜高级讲师级研究员

 2022年博士毕业于浙江大学，现任深圳北理莫斯科大学材料科学系高级讲师，特聘岗位C类人才； 研究兴趣包括金属基固态材料储氢、氢化物水解制氢/再生；目前已主持国自然、省自然、省教育厅、深圳市人才项目 4 项，在Renew. Sustain. Energy Rev., Nano Lett., Chem. Eng. J., J. Magnes. Alloy, J. Mater. Sci. Technol., ACS Sustainable Chem. Eng.等期刊发表SCI论文20余篇，申请国家发明专利2项。

■ Biography-Short  Description

Shun Wang got her PhD degree from Zhejiang University in 2022 and now works as a senior lecturer in the Materials Science Department of Shenzhen MSU-BIT University. The research interests include metal-based solid hydrogen storage materials and hydrolytic hydrogen generation/regeneration of hydrides. To date, she has hosted 4 national, provincial, and city research and talent projects, published more than 20 SCI papers in Renew. Sustain. Energy Rev., Nano Lett., Chem. Eng. J., J. Magnes. Alloy, J. Mater. Sci. Technol., ACS Sustainable Chem. Eng., etc., and applied for 2 national invention patents.

■ 教育经历

□ 2013.9-2017.6，陕西师范大学，材料化学，理学学士

□ 2017.9-2022.6，浙江大学，材料学，工学博士

■ 工作经历

□ 2022.7-2024.12，深圳北理莫斯科大学，讲师

□ 2025.1-至今，深圳北理莫斯科大学，高级讲师

■ 研究领域

□金属基固态材料储氢、氢化物水解制氢/再生

■ Research  Interest

 Metal-based solid hydrogen storage materials; Hydrolytic hydrogen generation/regeneration of hydrides

■ 主讲课程

(1) 材料科学导论（部分章节）

■ 社会兼职

■  荣誉奖励

(1) 2024年深圳市科协第四届优秀科技学术论文

(2) “中国中车杯”第七届全国大学生可再生能源优秀科技作品竞赛二等奖 (学生团队：祖安琦、刘亦珂、连绰，指导教师：王舜)

■ 科研工作

1.国家自然科学基金-青年基金项目，30万，2025.1-2027.12，项目负责人

2.广东省教育厅-普通高校青年创新人才项目，10万，2023.10-2025.10，项目负责人

3.广东省基础与应用基础研究基金-青年基金项目，10万，2023.11-2026.10，项目负责人

4.深圳市优秀科技创新人才培养项目-基础研究启动，30万，2024.6-2026.6，项目负责人

■代表性成果（论文和专利 ）

论文：

(1) S. Wang*, Z.L. Li, M.X. Gao*, Y.F. Liu, H.G. Pan. Low-temperature and reversible hydrogen storage advances of light metal borohydrides. Renewable and Sustainable Energy Reviews, 2025, 208, 115000.

(2) S. Wang*, C.J. Liu, Y.Y. Zhu*. Boosting Ambient Hydrogen Storage in Graphene via Structural and Functional Designs: A Review. Advanced Energy and Sustainability Research, 2025, 2400362.

(3) S. Wang*, S.Q. Qu, Z.H. Liu, Y.Y. Zhu*, Z.L. Li, H.F. Liu, M.X. Gao*, H.G. Pan. In Situ Coupling Metallophilic Zn Sites and Interfacial LiCl Stabilizer to Achieve One-Step Reversible Hydrogen Storage in Li/Na Dual-Cation Borohydride. Chemical Engineering Journal, 2024, 488, 150889. （2024年深圳市科协第四届优秀科技学术论文）

(4) C.J. Liu, Y.Y. Zhu*, A.Q. Zu, Y.K. Liu, Z.Y. Zhang, J,J Guo, C. Lian, M.E. Zou, S. Wang*. One-step synthesis of fluorine-functionalized intercalated graphene with adjustable layer spacing for both enhanced physical and chemical hydrogen storage. Materials Today Catalysis, 2024, 7, 100074.

(5) Y.Y. Zhu*, L.M. Zeng, D.F. Wu, S. Wang*, Q. Zhou, R.H. Tang, G.C-P. Tsui, Z.-L. Xu, X.-S. Yang, K.C. Chan*. MgH₂@Mg(BH₄)₂ Core−Shell-like Nanostructures: Synthesis, Hydrolysis Performance, and Promotion Mechanism. Nano Letters. 2024, 24, 3221−3230.

(6) Y.Y. Zhu*, Q. Zhou, L.M. Zeng, D.F. Wu, R.H. Tang, S. Wang*. Rare-Earth Metal Trigger Enhanced Generation Kinetics of Lithium Borohydride. ACS Sustainable Chemistry & Engineering, 2024, 12, 10537−10543.

(7) S. Wang, M.H. Wu, Y.Y. Zhu*, Z.L. Li, Y.X. Yang, Y.Z. Li, H.F. Liu, M.X. Gao*. Reactive destabilization and bidirectional catalyzation for reversible hydrogen storage of LiBH₄ by novel waxberry-like nano-additive assembled from ultrafine Fe₃O₄ particles. Journal of Materials Science & Technology, 2024, 172, 63-71.

(8) Z.L. Li, S. Wang (co-first), M.X. Gao*, K.C. Xian, Y. Shen, Y.X. Yang, P.Y. Gao, W.P. Sun, Y.F. Liu, H.G. Pan*. Catalyzed LiBH₄ hydrogen storage system with in situ introduced Li₃BO₃ and V for enhanced dehydrogenation and hydrogenation kinetics as well as high cycling stability. ACS Applied Energy Materials, 2022, 5, 1226–1234.

(9) S. Wang, M.X. Gao*, Z.H. Yao, K.C. Xian, M.H. Wu, Y.F. Liu, W.P. Sun, H.G. Pan*. High-loading, ultrafine Ni nanoparticles dispersed on porous hollow carbon nanospheres for fast (de)hydrogenation kinetics of MgH₂, Journal of Magnesium and Alloys, 2022, 10, 3354-3366.

(10) S. Wang, M.X. Gao*, Z.H. Yao, Y.S. Liu, M.H. Wu, Z.L. Li, Y.F. Liu, W.P. Sun, H.G. Pan*. A nanoconfined-LiBH₄ system using a unique multifunctional porous scaffold of carbon wrapped ultrafine Fe₃O₄ skeleton for reversible hydrogen storage with high capacity. Chemical Engineering Journal, 2021, 428, 131056.

(11) S. Wang, M.X. Gao*, K.C. Xian, Z.L. Li, Y. Shen, Z.H. Yao, Y.F. Liu, H.G. Pan. LiBH₄ nanoconfined in porous hollow carbon nanospheres with high loading, low dehydrogenation temperature, superior kinetics, and favorable reversibility. ACS Applied Energy Materials, 2020, 3, 3928–3938.

专利：

(1) 王舜, 曲珊青, 潘洪革, 高明霞. 一种双金属硼氢化物储氢材料及其制备方法. 申请号：2023116323717

(2) 王舜. 一种层间距可调的氟功能化插层石墨烯材料的一步法制备工艺及其产品和应用. 申请号：202410488754X