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快充石墨负极
关注'%3e%3cg%3e%3cpath%20d='M18,16L13,16L10,19L7,16L2,16L2,3L18,3L18,16ZM12.3787,14.5L10,16.878700000000002L7.62132,14.5L3.5,14.5L3.5,4.5L16.5,4.5L16.5,14.5L12.3787,14.5Z'%20fill-rule='evenodd'%20fill='%23FFFFFF'%20fill-opacity='1'/%3e%3c/g%3e%3cg%3e%3cg%3e%3cellipse%20cx='6'%20cy='9.5'%20rx='1'%20ry='1'%20fill='%23FFFFFF'%20fill-opacity='1'/%3e%3c/g%3e%3cg%3e%3cellipse%20cx='10'%20cy='9.5'%20rx='1'%20ry='1'%20fill='%23FFFFFF'%20fill-opacity='1'/%3e%3c/g%3e%3cg%3e%3cellipse%20cx='14'%20cy='9.5'%20rx='1'%20ry='1'%20fill='%23FFFFFF'%20fill-opacity='1'/%3e%3c/g%3e%3c/g%3e%3c/g%3e%3c/svg%3e)
联系合作 前沿新材料
成果单位: 中国石油大学(北京)
合作方式: 面议
所处阶段: 中试
关 键 词 : 电池固相扩散离子传输电极极化析锂风险机械疲劳SEI膜破裂再生
总得分 (满分100)
0
资本强度 (满分0)
该成果得分:0
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李永峰
查看详情
查看详情李永峰,在中国石油大学(北京)新能源与材料学院担任教授(博士生导师)及副院长,主要研究方向为新能源材料、碳材料以及催化材料,从事新能源材料领域的教学、科研与人才培养工作。
所在机构:
中国石油大学(北京)
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核心问题
快充石墨负极面临锂离子在石墨层间固相扩散缓慢的问题,高倍率下离子传输滞后于电子传输,导致电极表面极化加剧,存在析锂风险;同时,大电流会加速石墨结构的机械疲劳与界面SEI膜的反复破裂再生,使得电池循环寿命和安全性能难以兼顾。
解决方案
未明确提及具体技术原理、架构及关键技术点(因给定信息未详细阐述相关内容)
竞争优势
未明确提及具体效益、竞争优势及创新性相关内容(因给定信息未详细阐述相关内容),但处于中试阶段,具备向产业化推进的潜力。
成果公开日期
2025-03-15
成果类型
技术开发和产业化
市场分析
锂电池负极
摘要
快充石墨负极的根本瓶颈在于锂离子在石墨层间的固相扩散缓慢,高倍率下离子传输严重滞后于电子传输,导致电极表面极化加剧,引发析锂风险。同时,大电流会加速石墨结构的机械疲劳与界面SEI膜的反复破裂再生,使得电池循环寿命和安全性能难以兼顾。
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WENXIAOGUO
问小果
该成果有哪些相似成果?
该成果可能有哪些需求方?
该成果的市场前景如何?
中国石油大学(北京)的相关成果还有哪些?
