王师

博士，专任教师

江苏省“双创博士”

办公地点：南京市文苑路9号 威廉希尔williamhill官方网站仙林校区教5-502

邮箱：iamshiwang@njupt.edu.cn；微信：wangshi2525   

教育经历：

2016/9-2019/6 中国科学院大学，材料学专业，工学博士

2013/9-2016/6 华侨大学 高分子化学与物理专业  理学硕士

2009/9-2013/6 中南民族大学 材料化学专业 理学学士

科研工作简介：

围绕聚合物电解质离子电导率与力学性能调控、固态电池界面稳定机制等科学问题开展分子合成与应用、储能系统的安全化新策略研究：提出了类渔网状结构、阳离子配位、有机无机双网络等聚合物电解质设计新策略，实现了聚合物电解质离子电导率与力学性能协同调控，阐明了其离子传导机制；提出了原位聚合转印一体化新策略，突破了固态电池界面难以稳定的瓶颈，发展了安全高性能锂电池。以第一作者/通讯发表SCI论文30余篇，包括国际主流期刊Angewandte Chemie International Edition, Advanced Materials,Advanced Energy Materials, Advanced Functional Materials, Advanced Science, ACS Eenergy Letters, Applied Physics Review, ACS Materials Letter, Fundamental Research (国家基金委高水平期刊), Chemical Engineering Journal等。申请中国发明专利4项，其中2项授权。主持国家级、省部级相关项目4项。

代表性著作:

1. Shi Wang; Shijun Xiao; Shuanghan Li; Chao Liu; Henan Cai; Wenqing Sun; Zhendong Huang; Wen-Yong Lai*; Organic Cationic-Coordinated Perfluoropolymer Electrolytes with Strong Li+-Solvent Interaction for Solid State Li-Metal Batteries, Angew. Chem. Int. Ed. 2024, e202412434.

2. Lei Zhang；Shi Wang*； Qian Wang*；Huaiyu Shao*；Zhong Jin*；Dendritic Solid Polymer Electrolytes: A New Paradigm for High-Performance Lithium-based Batteries, Adv. Mater. 2023, 35, 2303355. 

3. Chongyang Liu; Shi Wang;* Xinyi Wu; Shijun Xiao; Chao Liu; Henan Cai; Wen-Yong Lai; In Situ Construction of Zwitterionic Polymer Electrolytes with Synergistic Cation–Anion Regulation Functions for Lithium Metal Batteries, Adv. Funct. Mater. 2023, 34, 2307248.

4. Shi Wang; Lei Zhang; Qinghui Zeng; Jiazhu Guan; Haiqi Gao; Zhong Jin, Liaoyun Zhang;* Wen-Yong Lai*; Qian Wang*; Designing Polymer Electrolytes via Ring-Opening Polymerization for Advanced Lithium Batteries, Adv. Energy Mater. 2024, 14, 2302876. 

5. Shi Wang; Shijun Xiao; Henan Cai; Wenqing Sun; Tong Wu; Yu Wang; Jixin He; Sheng Yang; Zhen-Dong Huang; Wen-Yong Lai, Elastic Polymer Electrolytes Integrated with In-situ Polymerizationtransferred Electrodes towards Stretchable Batteries, ACS Energy Lett.2024, 9, 3672. 

5. Qinghui Zeng; Yu Liu; Baerlike Wujieti; Zhenfeng Li; Anqi Chen; Jiazhu Guan; Honghao Wang; Yuchen Jiang; Henghui Zhou*; Wei Cui*; Shi Wang*; Liaoyun Zhang*; Rapid ion conduction enabled by synergism of oriented liquid crystals and Electron-Deficient boron atoms in multiblock copolymer electrolyte for advanced Solid-State Lithium-Ion battery, Chem. Eng. J.2024, 486, 150298.

6.Lei Zhang; Jiawei Wu; Tiantian Lu; Xueyong Li; Hao Wu; Tao Chen; Yulin Zhang; Jintao Wei; Mingao Hu; Xiaomei Zheng; Haiqi Gao*; Zhen-Dong Huang; Qian Wang*; Shi Wang*; Zhong Jin; Improving Zn2+ migration via designing multiple zincophilic polymer electrolyte for advanced aqueous zinc ion batteries, Chem. Eng. J.2024, 496, 143815.

7. Shi Wang; Qiange Li; Haiqi Gao; Henan Cai; Chao Liu; Tao Cheng; Chongyang Liu; Yonghua Li; Wen-Yong Lai;

A Polyzwitterion-Mediated Polymer Electrolyte with High Oxidative Stability for Lithium-Metal Batteries, Small, 2023, 19, 2304677.

8. Yu Liu; Qinghui Zeng; Zhenfeng Li; Anqi Chen; Jiazhu Guan; Honghao Wang; Shi Wang*; Liaoyun Zhang*, Recent Development in Topological Polymer Electrolytes for Rechargeable Lithium Batteries, Adv. Sci. 2023, 10, 2206798.

9. Lei Zhang; Haiqi Gao; Tianlin Ma; Qian Wang*; Wen Liu*; Shi Wang*, In-Situ Construction of Ceramic-Polymer All-Solid-State Electrolytes for High-Performance Room-Temperature Lithium Metal Batteries, ACS Mater. Lett. 2022, 4, 1279.

10. Qian Wang; Pengkun Zou; Longtao Ren; Shi Wang *; Yan Wang; Ziyi Huang; Zhaoxia Hou; Zheheng Jiang; Xiwen Lu; Tiantian Lu; Lixiang Guan; Lifeng Hou*; Chengkai Yang g*; Wen Liu g*, Yinghui Wei g*, Ultrathin Composite Li Electrode for High-Performance Li Metal Batteries: A Review from Synthetic Chemistry, Adv. Funct. Mater. 2023, 33, 2213648

11. Qian Wang^‡; Shi Wang^‡*; Tiantian Lu; Lixiang Guan; Lifeng Hou*; Huayun Du; Huan Wei; Xiaoda Liu; Yinghui Wei*; Henghui Zhou*, Ultrathin Solid Polymer Electrolyte Design for High-Performance Li Metal Batteries: A Perspective of Synthetic Chemistry, Adv. Sci. 2022, 2205233.

12. Shi Wang;^‡ Tao Chen;^‡ Yi-Zhou Zhang;^‡ Xinyi Wu, Shijun Xiao, Wen-Yong Lai,* Deformable Lithium-ion batteries for wearable and implantable electronics, Appl. Phys. Rev. 2022, 9, 041310.

13. Shi Wang;^‡ Minglei Bai;^‡ Guanjun Li; Chongyang Liu; Qiange Li; Jinxin He; Wen-Yong Lai,* Highly Stretchable Multifunctional Ionic Conductor with High Ionic Conductivity Based on Organic-Inorganic Dual Networks, Chem. Eng. J. 2022, 440, 135824.

14. Shi Wang;^‡ JixinHe;^‡ QiangeLi; Yu Wang; Chongyang Liu; TaoCheng; Wen-Yong Lai,* Highly elastic energy storage device based on intrinsically super-stretchable polymer lithium-ion conductor with high conductivity, Fundamental Research 2022, doi: 10.1016/j.fmre.2022.06.003.

15. Shi Wang^‡; Xiangchun Li^‡; Tao Cheng^‡; Yuanyuan Liu; Qiange Li; Minglei Bai; Xu Liu; Haigang Geng; Wen-Yong Lai;* and Wei Huang, Highly Conjugated Three-Dimensional Covalent Organic Frameworks with Enhanced Li-ion Conductivity as Solid-State Electrolytes for High-Performance Lithium Metal Batteries, J. Mater. Chem. A 2022, 10, 8761-8771.

16. Shi Wang^‡; Qinghui Zeng^‡; Ailian Wang; Xu Liu; Jie Chen; Zhinan Wang; Liaoyun Zhang*; Constructing stable ordered ion channels for a solid electrolyte membrane with high ionic conductivity by combining the advantages of liquid crystal and ionic liquid, J. Mater. Chem. A 2019, 7(3), 1069.

17. Lei Zhang; Gan Jin; Tianlin Ma; Shi Wang*, Ion transport in topological all-solid-state polymer electrolyte improved via graphene-oxide, J. Appl. Polym. Sci. 2021, 138, 50173.

18. Shi Wang; Ailian Wang; Chengkai Yang; Rui Gao; Xu Liu; Jie Chen;Zhinan Wang; Qinghui Zeng; Xiangfeng Liu; Henghui Zhou*; Liaoyun Zhang*;Six-arm star polymer based on discotic liquid crystal as high performanceall-solid-state polymer electrolyte for lithium-ion batteries, J. Power Sources2018,395 (15), 137.

19. Shi Wang^‡; Jingyu Li^‡; Qingyuan Li; Jie Chen; Xu Liu; Zhinan Wang;Qinghui Zeng; Tong Zhao*; Xiangfeng Liu*; Liaoyun Zhang*; Topological polymerelectrolyte containing poly(pinacol vinylboronate) segments composited with ceramicnanowires towards ambient-temperature superior performance all-solid-state lithiumbatteries, J. Power Sources 2018, 413 (15), 318.

20. Shi Wang; Xu Liu; Ailian Wang; Zhinan Wang; Jie Chen; Qinghui Zeng;Xuefei Wang*; Liaoyun Zhang*; An ionic liquid crystal-based solid polymerelectrolyte with desirable ion-conducting channels for superior performance ambienttemperature lithium batteries, Polym. Chem. 2018, 9(37), 4674.

21. Shi Wang; Xu Liu; Ailian Wang; Zhinan Wang; Jie Chen; Qinghui Zeng;Xiaorui Jiang; Henghui Zhou*; Liaoyun Zhang*; High-performance all-solid-statepolymer electrolyte with controllable conductivity pathway formed by self-assemblyof reactive discogen and immobilized via a facile photopolymerization for alithium-ion battery, ACS Appl. Mater. Interfaces 2018, 10 (30), 25273.

22. Shi Wang^‡; Lei Zhang^‡; Qinghui Zeng; Xu Liu; Wen-Yong Lai*; LiaoyunZhang*; Cellulose microcrystals with brush-Like architectures as flexibleall-solid-state polymer electrolyte for lithium-ion battery, ACS Sustain. Chem. Eng. 2020, 8 (8), 3200.

23. Shi Wang^‡; Lei Zhang^‡; Ailian Wang; Xu Liu; Jie Chen; Zhinan Wang;Qinghui Zeng; Heng-hui Zhou; Xiaorui Jiang*; Liaoyun Zhang*; Polymer-ladencomposite lignin-based electrolyte membrane for high performance lithium batteries,ACS Sustain. Chem. Eng. 2018, 6 (11), 14460.

24. Shi Wang^‡; Lei Zhang^‡; Jingyu Li; Qinghui Zeng; Xu Liu; Pingping Chen;Wen-Yong Lai; Tong Zhao*; Liaoyun Zhang*; A nanowire-nanoparticle doublecomposite polymer electrolyte for high performance ambient temperature solid-statelithium batteies, Electrochim. Acta 2019, 320 (10), 134560.

25. Shi Wang^‡; Qingyuan Li^‡; Minglei Bai; Jixin He; Chongyang Liu; ZengxiLi*; Xiangfeng Liu*; Wen-yong Lai; Liaoyun Zhang*; A dendrite-suppressed flexiblepolymer-in-ceramic electrolyte membrane for advanced lithium batteries,Electrochim. Acta 2020, 353, 136604.

26. Shi Wang; Ailian Wang; Xu Liu; Hao Xu; Jie Chen; Liaoyun Zhang*;Ordered mesogenic units-containing hyperbranched star liquid crystal all-solid-statepolymer electrolyte for high-safety lithium-ion batteries, Electrochim. Acta 2018, 259(1), 213.

27. Shi Wang^‡; Hao Xu^‡; Ailian Wang; Xu Liu; Jie Chen; Zhinan Wang; DiFeng; Qinghui Zeng; Liaoyun Zhang*; Nanocomposite all-solid-state polymerelectrolyte for high performance lithium batteries,Energy Technol. 2019, 7 (1), 122.

28. Lei Zhang*; Haiqi Gao; Gan Jin; Shuo Liu; Jiawei Wu; Hao Wu; Yuqing Yang; Qian Wang*; Shi Wang*, Cellulose-Based Electrolytes for Advanced Lithium-Ion Batteries: Recent Advances and Future Perspectives, ChemNanoMat 2022, 8, e202200142.

29. Tao Chen^‡; Yi-Zhou Zhang^‡; Shi Wang^‡; Ya-Li Chen, Si-Ya Gao, Feng Wang; Wen-Yong Lai; Wei Huang; Conductive Hydrogel-Based Electrodes and Electrolytes for Stretchable and Self-Healable Supercapacitors, Adv. Funct. Mater. 2021, 31, 2101303.

30. Zhinan Wang^‡; Shi Wang^‡; Ailian Wang; Xu Liu; Jie Chen; Qinghui Zeng; Lei Zhang; Wei Liu*; Liaoyun Zhang*; Covalently-linked metal–organic framework (MOF)-polymer all-solid-state electrolyte membrane for room temperature high performance lithium batteries,J. Mater. Chem. A 2018, 6 (35), 17227.

31. Lei Zhang^‡; Shi Wang^‡; Jingyu Li; Xu Liu; Pingping Chen; Tong Zhao*; Liaoyun Zhang*; A nitrogen-containing all-solid-state hyperbranched polymer electrolyte for superior performance lithium batteries, J. Mater. Chem.A 2019, 7 (12), 6801.

32. Yuan-Yuan Liu^‡; Xiang-Chun Li^‡; Shi Wang; Tao Cheng; Huiyan Yang;Chen Liu; Yanting Gong; Wen-Yong Lai*; Wei Huang*; Self-templated synthesis ofuniform hollow spheres based on highly conjugated three-dimensional covalentorganic frameworks, Nat. Commun. 2020, 11, 5561.

33. Qian Wang; Longtao Ren; Tiantian Lu; Shi Wang* et al. Air-Stable Lithium Metal Anodes: A Perspective of Surface Engineering from Different Dimensions, ACS Energy Lett. 2023, 8, 4441.

获批、申请的发明专利:

1.  张辽云；王师；王蔼廉；等，拓扑结构液晶聚合物电解质及其合成方法与应用，申请号：201710476531.1 （授权）

2.  赖文勇；白明磊；王师；等，一种本征可拉伸双网络离子凝胶电解质及其制备方法与应用，申请号：CN202110695524.7（授权）

3.  赖文勇；何纪鑫；王师；等，一种本征高拉伸多功能聚合物离子导体及其制备方法与应用, 申请号：CN2022103691059

4. 赖文勇；吴欣怡；王师；等，一种本征可拉伸聚合物电解质及其制备方法与应用，申请号：CN202211512729.8