吴锋
作者: Chen Renjie1,2,3;Wu Feng1,2,3 (1School of Materials Science and Engineering,Beijing Institute of Technology, Beijing Key Laboratory of Environmental Science and Engineering, Beijing, 100081;2Advanced Technology Research Institute (Jinan),Beijing Institute of Technology, Jinan, 250300;3Collaborative Innovation Center of Electric Vehicles in Beijing, Collaborative Innovation Center of Electric Vehicles in Beijing, Beijing, 100081)
出处: Engineering 2023 第21卷 第期 P24-27
摘要: With the rapid development of next-generation technologies-including the Internet,information technology,quantum technology,micro-nano technology,big ...
作者: 陈来1,2;,赵晨颖1,2;,赵双义1;,刘祉妤1,2;,卢赟1,2;,白友祥1,2;,李宁1,2;,曹端云1,2;,陈实1;,苏岳锋1,2;,吴锋1,2; (1Beijing Key Laboratory of Environmental Science and Engineering, School of Materials Science and Engineering, Beijing Institute of Technology;2Beijing Institute of Technology Chongqing Innovation Center)
出处: Science China(Materials) 2023 第66卷 第6期 P2169-2180
摘要: 提高碳材料中氮的掺杂含量,尤其是吡啶氮的含量,已被证明可以显著提升锂硫(Li-S)电池的性能.尽管在碳材料中氮掺杂具有积极作用,但在实际操作中要实现>5 at.%的高氮掺杂含量仍非易事.此外,无法调节碳材料中特定的氮种类也是研究中的一个难题.在本文中,我们通过在氩气气氛下煅烧预先经过磷化处理的泛酸钙 ...
作者: Tianyang Xue1;,Ji Qian1,2;,Xingming Guo1;,Yi Chen1;,Kaixin Yu1;,Tianyang Yu1;,Yao Li1;,Li Li1,2,3;,Feng Wu1,2,3;,Renjie Chen1,2,3; (1Beijing Key Laboratory of Environmental Science and Engineering, School of Materials Science and Engineering,Beijing Institute of Technology;2Institute of Advanced Technology, Beijing Institute of Technology;3Collaborative Innovation Center of Electric Vehicles in Beijing)
出处: Science China(Chemistry) 2023 第66卷 第7期 P2121-2129
摘要: Lithium metal batteries(LMBs) are regarded as the most promising next-generation battery system due to their high energy density. However, Li dendrite ...
作者: 陈人杰1,2,3;,吴锋1,2,3; (1Beijing Key Laboratory of Environmental Science and Engineering, School of Materials Science and Engineering, Beijing Institute of Technology;2Advanced Technology Research Institute (Jinan), Beijing Institute of Technology;3Collaborative Innovation Center of Electric Vehicles in Beijing)
出处: Engineering 2023 第21卷 第2期 P24-27
摘要: 1. Introduction: Opportunities for new energy systems With the rapid development of next-generation technologies-including the Internet, information t ...
作者: Feng Wu1,2;,Jinyang Dong1,2;,Jiayu Zhao1,2;,Qi Shi1,2;,Yun Lu1,2;,Ning Li1,2;,Duanyun Cao1,2;,Wenbo Li1,2;,Jianan Hao1,2;,Yu Zheng3;,Lai Chen1,2;,Yuefeng Su1,2; (1School of Materials Science and Engineering, Beijing Key Laboratory of Environmental Science and Engineering, Beijing Institute of Technology;2Beijing Institute of Technology Chongqing Innovation Center;3BTR New Material Group Co., Ltd)
出处: Journal of Energy Chemistry 2023 第82卷 第7期 P158-169
摘要: Cation-disordered rocksalt oxides(DRX) have been identified as promising cathode materials for high energy density applications owing to their variabl ...
作者: Zhengqiang Hu1;,Fengling Zhang1;,Anbin Zhou1;,Xin Hu1;,Qiaoyi Yan1;,Yuhao Liu1;,Faiza Arshad1;,Zhujie Li2;,Renjie Chen1,3,2;,Feng Wu1,3,2;,Li Li1,3,2; (1Beijing Key Laboratory of Environmental Science and Engineering, School of Materials Science & Engineering, Beijing Institute of Technology;2Advanced Technology Research Institute, Beijing Institute of Technology;3Collaborative Innovation Center of Electric Vehicles in Beijing)
出处: Nano-Micro Letters 2023 第15卷 第10期 P205-217
关键词: Nucleation overpotential;Complexing agent;Zn batteries;Zn deposition
摘要: Dendrite formation severely compromises further development of zinc ion batteries. Increasing the nucleation overpotential plays a crucial role in ach ...
作者: 周安彬1;,王辉荣1;,胡昕1;,张凤玲1;,赵逸1;,胡正强1;,张乾魁1;,宋志航1;,黄永鑫1,2;,李丽1,2,3;,吴锋1,2,3;,陈人杰1,2,3; (1Beijing Key Laboratory of Environmental Science and Engineering, School of Materials Science and Engineering, Beijing Institute of Technology;2Advanced Technology Research Institute, Beijing Institute of Technology;3Collaborative Innovation Center of Electric Vehicles in Beijing)
出处: Science Bulletin 2023 第68卷 第19期 P2170-2179
摘要: 水系锌离子电池具有储量丰富、环境友好、本质安全等优点.然而,由于枝晶生长、腐蚀反应等问题,导致其具有较差的可逆性,严重阻碍了其实际应用.超分子冠醚化合物具有独特的分子识别特性,通过筛选与Zn2+离子直径相近的内腔尺寸的超分子冠醚作为大环宿主,可以有效调控Zn2+
作者: 吴锋1,2;,吴川2;,王亚雄3;,李雨2;,欧凯3; (1中国工程院;2北京理工大学材料学院;3福州大学机械工程及自动化学院)
出处: 学会 2023 第6期 P32-35
关键词: 储能电池产业;现状;问题;高质量发展
摘要: 随着全球新能源大规模装机及对能源消纳和电力供需要求的不断提高,电化学储能应用日益增多。该文通过梳理分析福建省储能电池产业基础和发展现状,分析了福建省储能电池产业发展中存在的问题,针对性地提出福建省储能电池产业的发展建议,旨在进一步巩固储能电池产业基础,助力福建省储能电池产业高质量发展。
作者: 刘明权1,2;,吴锋1,2;,冯鑫1;,王亚辉1,2;,郑路敏1;,李新3;,李莹1;,巩玉腾1;,白莹1;,吴川1,2; (1School of Materials Science and Engineering, Beijing Institute of Technology;2Yangtze Delta Region Academy of Beijing Institute of Technology;3School of Aeronautical Engineering, Jiangxi Institute of Economic Administrators)
出处: Science China(Materials) 2023 第66卷 第2期 P541-555
摘要: 具备低价、优异倍率性能、长寿命、高安全性的水系锌离子混合电容器(ZHSCs)是理想的下一代能量存储器件.高比表面积、多级孔、富缺陷的掺杂分级多孔碳(HD-HPCs)是非常有前景的ZHSCs正极材料.但是,可持续且可控原位构筑同时具备多种结构组分优势的HDHPCs仍然面临挑战.本文提出一种新的分子工程 ...
作者: 李锐1,2;,包丽颖1;,陈来1,2;,查成2;,董锦洋1,2;,起楠1,2;,唐睿1,2;,卢赟1,2;,王萌2;,黄荣3;,闫康1,2;,苏岳锋1,2;,吴锋1,2; (1School of Materials Science and Engineering, Beijing Institute of Technology;2Chongqing Innovation Center, Beijing Institute of Technology;3Beijing Electric Vehicle Co., Ltd.)
出处: Science Bulletin 2023 第68卷 第23期 P3055-3079
摘要: 储能行业和新能源汽车的爆发式增长要求对锂离子电池的老化行为尤其是电池的寿命行为有更加深入的了解.准确地预测电池在各种工作条件下的使用寿命有助于优化电池的实际运行条件和延长电池的使用寿命,最终达到降低电池生命周期内总成本的目的.加速老化是一种经济高效的产品寿命评价方法,可以在短时间内获得大量的电池老化 ...