教学科研成果
发明专利:
(1) “一种提高锌负极性能的表面处理方法和应用”, 发明人: 刘金章,袁相程。授权日期:2023.09.01.专利号:ZL202111625976.4
(2) “一种三室结构的锌-聚合物水系可充电电池及其制备方法”,发明人:刘金章,王娜。授权日期:2022.02.25. 专利号:ZL202110769829.8
(3) “一种水系锌离子二次电池及其基于有机电极材料的正极的制备方法”,发明人:刘金章,赵逸,辛拓。授权日期:2021.01.12. 专利号:ZL201910468825.9
(4) “一种具有微波吸收特性的复合纳米材料及制备方法”,发明人:刘金章,李明,单光存。授权日期:2020.08.26. 专利号:ZL201811432798.1
(5) “一种在石墨烯表面吸附水解聚酰亚胺分子来提高比电容的方法”,发明人:刘金章、赵逸。授权公告日:2018.10.26;授权号:CN107104001B
(6) “一种提高石墨烯基超级电容器的比电容的方法”,发明人:刘金章、赵逸。
授权公告日:2018.10.26; 授权号:CN106449180B
代表性论文:
[1] Qiuju Xu, XinxinZhang, Xiangcheng Yuan, Weixuan Zhang, Yiqing Li, Yuegang Zhang, Jinzhang Liu*, A high-capacity and high-voltage aqueous Zn-polymer battery with self-charging function, Advanced Energy Materials, 2024, 14, 2303475.
[2] Yuqing Hu, Wuwei Feng, Weixuan Zhang, Yingda Zhang, Jinzhang Liu*, Poly(ether imide) film doped with protonated tetra(aniline) molecules for efficiently enhancing the capacitive energy stor-age performance. ACS Appl. Mater. Interfaces, 2024, 16, 49756−49762.
[3] Tuo Xin, Rongkun Zhou, Qiuju Xu, Xiangcheng Yuan, Zilong Zheng, Yiqing Li, Qi Zhang, Jinzhang Liu*, 15-crown-5 ether as efficient electrolyte additive for performance enhancement of aqueous Zn-ion batteries. Chemical Engineering Journal, 2023,452, 139572.
[4] Qiuju Xu, Wencai Zhou, Tuo Xin, Zilong Zheng, Xiangcheng Yuan, Jinzhang Liu*, Practical Zn anodes enabled by a Ti-MOF-derived coating for aqueous batteries. J. Mater. Chem. A, 2022, 10, 12247.
[5] Na Wang, Rongkun Zhou, Huan Li, Zilong Zheng, Mingjun Hu, Jinzhang Liu*, New Insights into the Electrochemistry of Carbonyl- and Amino-Containing Polymers for Rechargeable Zinc-Organic Batteries. ACS Energy Letters, 2021,6,1141.
[6] Na Wang, Rongkun Zhou, Zilong Zheng, Tuo Xin, Mingjun Hu, Bin Wang, Jinzhang Liu*.Flexible solid-state Zn-polymer batteries with practical functions. Chemical Engineering Journal, 2021,425, 131454.
[7] Yi Zhao, Yinong Wang, Zhiming Zhao, Jingwen Zhao, Tuo Xin, Na Wang, Jinzhang Liu*, Achieving high capacity and long life of aqueous rechargeable zinc battery by using nanoporous-carbon-supported poly(1,5-naphthalenediamine) nanorods as cathode. Energy Storage Materials, 2020, 28, 64-72.
[8] Tuo Xin, Yinong Wang, Na Wang, Yi Zhao, Huan Li, Zongwei Zhang, Jinzhang Liu,* High-capacity aqueous Zn-ion hybrid energy storage device using poly(4,4’-thiodiphenol)-modified acti-vated carbon as a cathode material, Journal of Materials Chemistry A, 2019,7,23076.
[9] Lu Sun, Jinzhang Liu*, Yujie Zhao, Jun Xu, Yan Li, Highly efficient solar steam generation via mass-produced carbon nanosheet frameworks, Carbon, 2019, 145, 352-358.
[10] Jinzhang Liu*, Zehui Liu, Ming Li, et al. Polydimethylsiloxane nanocomposite filled with 3D car bon nanosheet frameworks for tensile and compressive strain sensors. Composites Part B: Engineering, 2019, 168,175-182.