王舜高级讲师级研究员

 深圳北理莫斯科大学材料科学系讲师，主要研究方向为固态/液态储氢材料及其高效催化剂设计。目前以第一作者发表SCI论文5篇，合作SCI论文5篇，受理国家发明专利 1 项。此外，曾两次获得CSC出国访学资格，多次参加国际国内学术会议，作口头报告，并在学术poster展览中获奖。       

■ Biography-Short  Description

Lecturer, Department of Materials Science, Shenzhen MSU-BIT University. The main research direction is solid/liquid hydrogen storage materials as well design of highly-efficient catalysts. She has currently published SCI papers 10 and national invention patent 1. Besides, she has qualified by CSC to study abroad two times (one for Technion and one for Leuven University), attended many international and domestic academic conferences, delivered oral reports, and won the prize in the Academic Poster exhibition.     

■ 教育经历

□ 2013.09-2017.06 陕西师范大学材料科学与工程学院材料化学专业，大学本科；
□ 2017.09-2022.06 浙江大学材料科学与工程学院材料学专业，博士研究生

■ 工作经历

□ 2022.07-2024.07    深圳北理莫斯科大学材料科学系讲师 

□ 2024.08-当前          深圳北理莫斯科大学材料科学系高级讲师级研究员

■ 研究领域

□固态及液态储氢材料，包括多孔吸附剂、金属（配位）氢化物、芳香性有机氢载体等；

□ 针对材料吸放氢反应的高效催化剂设计

■ Research  Interest

 1, Solid and liquid hydrogen storage materials, including porous adsorbents, metal (complex) hydrides, aromatic organic hydrogen carriers, etc.
2, Designing highly-efficient catalysts for the (de)hydrogenation reactions of materials

■ 主讲课程

■ 社会兼职

■  荣誉奖励

■ 科研工作

■代表性成果（论文 ）

(1) S. Wang, M. H. Wu, Y. Y. Zhu*, Z. L. Li, Y. X. Yang, Y. Z. Li, H. F. Liu and 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, 2023. (SCI)
(2) S. Wang, M. X. Gao*, Z. H. Yao, K. C. Xian, M. H. Wu, Y. F. Liu, W. P. Sun and 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, 5, 1226−1234. (SCI)
(3) Z. L. Li, S. Wang (共一), M. X. Gao*, K. C. Xian, Y. Shen, Y. X. Yang, P. Y. Gao, W. P. Sun, Y. F. Liu and 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. (SCI)
(4) Z. L. Li, M. X. Gao*, S. Wang, X. Zhang, P. Y. Gao, Y. X. Yang, W. P. Sun, Y. F. Liu and H. G. Pan*. In-situ introduction of highly active TiO for enhancing hydrogen storage performance of LiBH4. Chemical Engineering Journal, 2022, 433: 134485. (SCI)
(5) K. C. Xian, M. H. Wu, M. X. Gao*, S. Wang, Z. L. Li, P. Y. Gao, Z. H. Yao, Y. F. Liu, W. P. Sun and H. G. Pan*. A Unique Nanoflake-Shape Bimetallic Ti–Nb Oxide of Superior Catalytic Effect for Hydrogen Storage of MgH2. Small, 2022, 2107013. (SCI)
(6) Y. S. Liu, S. Wang, Z. L. Li, M. X. Gao*, Y. F. Liu, W. P. Sun and H. G. Pan*. Enhanced Hydrogen Storage Performance of MgH2 by the Catalysis of a Novel Intersected Y2O3/NiO Hybrid. Processes, 2021, 9(5): 892. (SCI)
(7) S. Wang, M. X. Gao*, Z. H. Yao, Y. S. Liu, M. H. Wu, Z. L. Li, Y. F. Liu, W. P. Sun and 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(7401): 131056. (SCI)
(8) Z. H. Yao, P. Y. Gao, Y. X. Yang, M. X. Gao*, C. H. Yan, Q. N. Shao, S. Wang, F. Wang, Y. F. Liu and H. G. Pan*. A novel surface modification strategy for Li-Rich Mn-Based layered oxide cathodes of high-capacity and high-cyclic stability by an additive of LiBH4 to the electrolyte. Functional Materials Letters, 2021, 14(05): 2140003. (SCI)
(9) S. Wang, M. X. Gao*, K. C. Xian, Z. L. Li, Y. Shen, Z. H. Yao, Y. F. Liu and 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(4): 3928–3938. (SCI)
(10) K. C. Xian, M. X. Gao*, Z. L. Li, J. Gu, Y. Shen, S. Wang, Z. H. Yao, Y. F. Liu and H. G. Pan*. Superior Kinetic and Cyclic Performance of a 2D Titanium Carbide Incorporated 2LiH+MgB2 Composite toward Highly Reversible Hydrogen Storage. ACS Applied Energy Materials, 2019, 2(7): 4853–4864. (SCI)