Conferences / 学术会议

  • [7] Design strategies of cathode materials by employing linear coordination surrounding Cu center (X-Cu-X) for all-solid-state fluoride-ion battery

    The 89th ECSJ Spring Meeting, Osaka & online. (2022-03-15, Oral presentation, Excellent Presentation Award)

  • [6] Reversible and Fast (De)fluorination in Cu2O Cathode Material for All-solid-state Fluoride-ion Batteries

    International Conference on Mixed-Anion Compounds, Kobe & online. (2021-12-07, poster)

  • [5] Study of Redox Mechanism and Structural Diversity of Cu-based Cathode Materials for All-solid-state Fluoride-ion Batteries

    The 3rd Webinar of the Electrochemical Society of Japan, Kansai Branch, online. (2021-12-04, Challenge Section invited oral presentation)

  • [4] Reversible and Fast (De)fluorination in Cu2O Cathode Material for All-solid-state Fluoride-ion Batteries

    The 62th Battery Symposium in Japan, Yokohama. (2021-12-01, oral presentation)

  • [3] Unravelling the Reaction Mechanism of Ca0.85CuO2 Cathode Material with an Infinite-layer-related Structure

    The 62th Battery Symposium in Japan, Yokohama. (2021-11-30, oral presentation)

  • [2] A Nano-composition Enhanced Cu Cathode Material for All-solid-state Fluoride-ion Battery

    The 60th Battery Symposium in Japan, Kyoto. (2019-11-13, oral presentation)

  • [1] Electrochemical Property of Cu Nano-composite Cathode for All-solid-state Fluoride Ion Battery

    65th Meeting of the Polarographic Society of Japan, National Taiwan University, China (2019-11-06, poster)

Patents / 专利

  • No. CN106910890A  (2017/06/30)

    A (001)-facets-exposed orthosilicate nanomaterials and its synthesis routine

    一种(001)晶面暴露的纳米硅酸盐材料及制备方法

    韦伟峰, 丁正平, 张大同, 冯伊铭, 陈立宝

    本发明提供了一种(001)晶面暴露的纳米硅酸盐材料,材料粉体粒径为纳米级,正交晶系,在高分辨透射电子显微镜下显示有带轴斑点。其制备方法是将锂盐与硅源加入至有机介质溶剂1,得到溶液1;将金属M的盐加入到有机介质溶剂2,M为Fe、Mn或Co中的一种,得到溶液2;将溶液2滴加到溶液1中再将混合溶液于2‑10 MPa压力,150~250℃温度下反应6‑120小时,经后处理得到(001)晶面暴露的硅酸盐材料。本发明的材料由于(001)晶面暴露,材料中锂离子实现了快速迁移,使得本发明的材料在用于锂离子电池正极材料时,其电化学性能优良。另外本发明该方法可重复性高,制备工艺简单。

  • No. CN104752755B  (2017/03/01)

    Preparation methods of a sulfide solid electrolyte

    硫化物固体电解质的制造方法

    韦伟峰, 曾小慧, 丁正平, 柳佳图, 陈立宝, 张大同

    本发明提供了一种硫化物固体电解质的制备方法在密闭容器中向金属M1的氢氧化物水溶液中先通入H2S气体或加入可溶于水的硫化物反应一定时间后,再向其中加入包含有金属M2元素的水溶液;通入保护气体继续反应再向加入有机试剂后,置于低温环境中,析出的晶体经干燥后,再经热处理去除结晶水后得到产物。本发明采用新颖的湿法工艺制备全固态电解质,相比于传统固相合成的显著优点是反应时间短、可以控制产物形貌。

  • No. CN104752759A  (2015/07/01)

    Preparation method of crystalline Li-Sn-S inorganic solid electrolyte

    结晶态Li-Sn-S系无机锂离子固体电解质的制备方法

    韦伟峰, 曾小慧, 丁正平, 柳佳图, 陈立宝, 张大同

    本发明提供了一种结晶态Li-Sn-S系无机锂离子固体电解质的制备方法,在密闭容器中向LiOH·H2O水溶液中先通入H2S气体或加入可溶于水的硫化物反应一定时间后,再向其中加入包含有金属Sn元素的水溶液;通入保护气体继续反应再向加入有机试剂后,置于低温环境中,析出的晶体经干燥后,再经热处理去除结晶水后得到产物。本发明采用新颖的湿法工艺制备全固态电解质,相比于传统固相合成的显著优点是反应时间短、可以控制产物形貌。