1. Zhaolin Na, Xuxu Wang, Dongming Yin, Limin Wang*, Graphite felts modified by vertical two-dimensional WO3 nanowall arrays: high-performance electrode materials for cerium-based redox flow batteries, Nanoscale, 2018, 10 , 22, 10705-10712.
2. Gang Huang, Qian Li, Dongming Yin, Limin Wang*, Hierarchical Porous Te@ZnCo2O4 Nanofibers Derived from Te@Metal-Organic Frameworks for Superior Lithium Storage Capability, Adv. Funct. Mater., 2017, 27, 1604941-1604947.
3. Lianshan Sun*, Chunli Wang, Limin Wang*, A Kind of Coordination Complex Cement for the Self-Assembly of Superstructure, ACS Nano, 2018, 12, 4, 4002-4009.
4. Xuxu Wang, Zhaolin Na, Dongming Yin, Chunli Wang, Yaoming Wu, Gang Huang,* Limin Wang*, Phytic Acid-Assisted Formation of Hierarchical Porous CoP/C Nanoboxes for Enhanced Lithium Storage and Hydrogen Generation, ACS Nano 2018, 12, 12238-12246.
5. Dongming Yin, Gang Huang*, Shaohua Wang, Dongxia Yuan, Xuxu Wang, Qian Li, Qujiang Sun, Hongjin Xue, Limin Wang, Jun Ming*, Free-standing 3D nitrogen–carbon anchored Cu nanorod arrays: in situ derivation from a metal–organic framework and strategy to stabilize lithium metal anodes, Journal of Materials Chemistry A, 2020,8, 1425-1431.
6. Hongjin Xue,Yingqiang Wu*, Yeguo Zou, Yabin Shen, Gang Liu, Qian Li, Dongming Yin, Limin Wang, Jun Ming*, Unraveling Metal Oxide Role in Exfoliating Graphite: New Strategy to Construct High-Performance Graphene-Modified SiOx-Based Anode for Lithium-Ion Batteries, Advanced Functional Materials, 2020, 1910657-1910663.
7. Yong Cheng, Shaohua Wang, Lin Zhou*,Limin Chang, Wanqiang Liu, Dongming Yin*, Zheng Yi*, Limin Wang, SnO2 Quantum Dots: Rational Design to Achieve Highly Reversible Conversion Reaction and Stable Capacities for Lithium and Sodium Storage, Small, 2020.7, 16, 26, 2000681-2000692.
8. Yabin Shen, Zhen Cao, Yingqiang Wu*, Yong Cheng, Hongjin Xue, Yeguo Zou, Gang Liu, Dongming Yin, Luigi Cavallo, Limin Wang, Jun Ming*, Catalysis of silica-based anode (de-)lithiation: compositional design within a hollow structure for accelerated conversion reaction kinetics, Journal of Materials Chemistry A, 2020.6.7, 8, 25, 12306-12313.
9.Jiaxin Yang, Fei Liang, Yong Cheng, Dongming Yin, Limin Wang*, Improvement of dehydrogenation performance by adding CeO2 to a-AlH3, International Journal of Hydrogen Energy, 2020, 45, 2119-2126.
1. 发明专利:铈锌氧化还原液流电池负极复合板及其制备方法
专利号:ZL 201310179939.4
发明(设计)人:金荣荣 王立民 尹东明 李存峰 吴耀明 程勇 林静 那兆霖 袁冬霞 徐圣楠
授权公告日:2015-11-18
2. 发明专利:一种含铝钠钛钒镍准晶复相储氢材料及其制备方法
专利号:ZL 201210552733.7
发明(设计)人:梁飞 林静 程勇 王立东 尹东明 李存峰 吴耀明 王立民
授权公告日:2016-01-06
3. 发明专利:镍氢蓄电池
专利号:ZL 201110100054.1
发明(设计)人:王立民 刘万强 吴耀明 川部佳照 奥山良一
授权公告日:2017-02-15
4. 发明专利:一种电极表面原位生长金属有机配合物的碳包覆方法
专利号:ZL 201510996905.3
发明(设计)人:林静 孙连山 梁飞 黄岗 王立东 尹东明 方建勇 李存峰 吴耀明王立民
授权公告日:2018-01-23
5. 发明专利:网状交联聚丙烯酸锌的合成方法及其合成物的用法
专利号:ZL 201610478982.4
发明(设计)人:孙连山 吴耀明 陈川 易政 程勇 梁飞 尹东明 林静 王立民 马福元 王玉 潘维洁 张嘉佳 叶竞荣
1、宽温稀土储氢材料
研制了以高容量和宽温区为特点的高性能过渡金属复相储氢材料,在材料的宽温吸放氢容量、放氢温度和循环使用寿命上取得突破性进展;V-Ti-RE储氢合金在-40~100 oC条件下,最大吸氢量为3.554 wt.%,放氢量为1.86 wt.%。此外,研制了50 NL的储氢罐系统,供50 W-19 V的氢燃料电池持续工作1小时。
2、宽温镍氢电池
研制了宽温(-45~60 oC)应用的镍氢电池,建成了宽温镍氢电池产业化中试生产线,并在高技术装备、轨道列车、电动车、储能等方面获得应用,有效解决了寒冷地区动力电池应用的技术难题。
3、锂离子电池材料
研制了高镍/高压三元材料的可控制备及稀土改性,在晶体结构演化与电化学性能的构效关系研究方面取得重要进展。结合光谱分析、理论模拟等方法,深入研究电解液中Li+溶剂化结构与电极稳定性的构效关系,提出重新认识电解液中添加剂的作用观点以及预测电极稳定性的界面模型,为SiOx、Sn-Sb等负极材料的界面行为及稳定性研究奠定了理论基础。
人才队伍
