何伟东

教育工作经历 科学研究 论文与专著 学生培养 学术服务与荣誉 新建主栏目 工作经历 标题 起讫时间 2018.11——至今 职位/职称 教授、博士生导师，“龙江学者”特聘教授 工作单位 哈尔滨工业大学航天学院复合材料与结构研究所（校长韩杰才院士团队） 简单介绍 标题 起讫时间 2013.04——2018.10 职位/职称 研究员、教授，博士生导师；院长助理；先进能源与材料团队创建人&负责人 工作单位 电子科技大学能源学院、物理学院 简单介绍 标题 起讫时间 2012.01——2013.01 职位/职称 物理科学部博士后，合作导师：Wayne P. Hess 工作单位 美国西北太平洋国家实验室 简单介绍 教育经历 标题 起讫时间 2009.06——2012.05 所学专业 材料学， 导师：James H. Dickerson、Timothy P. Hanusa 学习机构 美国范德堡大学 学历 博士研究生（全额奖学金） 简单介绍 标题 起讫时间 2003.09——2007.07 所学专业 应用化学 学习机构 哈尔滨工业大学 学历 本科 简单介绍 名称 积极致力于产、学、研协同发展，在锂离子电池和燃料电池领域，作为联合创始人，推动了技术产品化和市场应用： 一、锂离子（锂硫）电池复合隔膜技术及市场化 隔膜是锂电池的四大主材之一，在锂电池应用中起着至关重要的作用，产业界广泛应用的聚烯烃隔膜还无法很好地满足锂电池对高安全性、高稳定性和高能量密度的需求。通过隔膜材料成分和结构优化、表面改性等手段研发了高端复合隔膜技术，发展了安全高效的锂硫电池和锂离子电池。 二、复合质子交换膜技术及市场化 质子交换膜燃料电池（PEMFC）是通过电化学反应将氢能转化为电能的一种能源装置，能量密度高达500 Wh/kg以上, 远高于锂离子电池（250~300 Wh/kg），被认为是最有前途的清洁高效发电装置和移动动力电源之一，在电动汽车（如丰田Mirai电动车）、备用电源（如通讯备用电源）、物流等领域具有重要应用。 质子交换膜是燃料电池系统的关键部件，作用是传导质子和分隔阴阳极，其性能对整个电池系统的运行起着至关重要的作用，因此，需要同时满足诸多条件，包括：质子传导率高，气体渗透率低，机械强度和热稳定性高，可加工性好，价格适中等。目前，满足以上条件的质子交换膜主要是全氟磺酸膜，成膜工艺非常复杂，国外质子交换膜技术已经成熟，产品被美国杜邦和日本旭硝子等国外大公司长期垄断。主流质子交换膜主要采用全氟磺酸聚合物，知名产品有Nafion膜、Flemion 膜、Aciplex 膜和Dow 膜。 我国燃料电池质子交换膜基本依赖进口，是制约我国燃料电池产业化进程的“卡脖子”技术。 我们长期从事质子交换膜研发，形成了具有自主知识产权的、基于国产全氟磺酸聚合物粉体商品的高质子传导率、高稳定性质子交换膜制备关键技术。 名称 2013年回国以来，以第一/通讯作者在Springer等国际出版社发表英文专著3部，在Joule、Energy & Environmental Science、Advanced Materials、Nano Letters、Advanced Energy Materials、Advanced Functional Materials、ACS Nano、Energy Storage Materials、iScience、ACS Energy Letters、Small Methods、Nano Energy、AlChE Journal和Chemical Engineering Science等SCI期刊上发表论文110篇，包括封面论文6篇。 部分论文（*通讯作者） 名称 40. Liwei Dong, Shijie Zhong, Botao Yuan, Yuanpeng Ji, Jipeng Liu, Yuanpeng Liu, Chunhui Yang, Jiecai Han and Weidong He*. Electrolyte engineering for high-voltage lithium metal batteries. Research, 2022, in press. 39. Jipeng Liu, Botao Yuan, Niandong He, Liwei Dong, Dongjiang Chen, Shijie Zhong, Yuanpeng Ji, Jiecai Han, Chunhui Yang, Yuanpeng Liu* and Weidong He*. Reconstruction of LiF-rich interphases through an anti-freezing electrolyte for ultralow-temperature LiCoO2 batteries. Energy & Environmental Science, 2022, in press. 38. Yang Yang, He Zhu, Fei Yang, Fan Yang, Dongjiang Chen, Zhipeng Wen, Dongzheng Wu, Minghui Ye, Yufei Zhang, Jinbao Zhao, Qi Liu, Xihong Lu, Meng Gu*, Cheng Chao Li* and Weidong He*. Ten Thousand-Cycle Ultrafast Energy Storage of Wadsley–Roth Phase Fe–Nb Oxides with a Desolvation Promoting Interfacial Layer. Nano Letters, 2021, 21, 22, 9675–9683. Front Cover Highlight. 37. Guangfeng Zeng, Yuanpeng Liu, Dongjiang Chen, Cheng Zhen, Yupei Han and Weidong He*. Natural Lepidolite Enables Fast Polysulfide Redox for High-Rate Lithium Sulfur Batteries. Advanced Energy Materials, 2021, 44(11), 2102058. 36. Liwei Dong, Yuanpeng Liu, Dongjiang Chen, Yupei Han, Yuanpeng Ji, Jipeng Liu, Botao Yuan, Yunfa Dong, Qun Li, Shengyu Zhou, Shijie Zhong, Yifang Liang, Mengqiu Yang, Chunhui Yang and Weidong He*. Stabilization of high-voltage lithium metal batteries using a sulfone-based electrolyte with bi-electrode affinity and LiSO2F-rich interphases. Energy Storage Materials, 2021, 44, 527-536. 35. Yinghua Niu, Yucun Zhou, Weiqiang Lv, Yu Chen*, Yanxiang Zhang, Weilin Zhang Zheyu Luo, Nicholas Kane, Yong Ding, Luke Soule, Yuchen Liu, Weidong He* and Meilin Liu*. Enhancing Oxygen Reduction Activity and Cr Tolerance of Solid Oxide Fuel Cell Cathodes by a Multiphase Catalyst Coating. Advanced Functional Materials, 2021, 19(31), 2100034. 34. Liwei Dong, Yuanpeng Liu, Kechun Wen, Dongjiang Chen, Dewei Rao, Jipeng Liu, Botao Yuan, Yunfa Dong, Ze Wu, Yifang Liang, Mengqiu Yang, Jianyi Ma, Chunhui Yang, Chuan Xia, Baoyu Xia, Jiecai Han, Gongming Wang*, Zaiping Guo* and Weidong He*. High-polarity fluoroalkyl ether electrolyte enables solvation-free Li+ transfer for high-rate lithium metal batteries. Advanced Science, 2021, 5(9), 2104699. 33. Dongjiang Chen, Yuanpeng Liua, Chuan Xiac, Yupei Han, Qingwei Sun, Xuchang Wang, Wei Chen, Xian Jian, Weiqiang Lv, Jianyi Ma and Weidong He*. Polybenzimidazole functionalized electrolyte with Li-wetting and self-fluorination functionalities for practical Li metal batteries. InfoMat, 2021, 5(4), e12247. 32. Shijie Zhong, Botao Yuan, Zhaoxu Guang, Dongjiang Chen, Qun Li, Liwei Dong, Yuanpeng Ji, Yunfa Dong, Jiecai Han and Weidong He*. Recent progress in thin separators for upgraded lithium ion batteries. Energy Storage Materials, 2021, 41, 805-841. 31. Botao Yuan, Kechun Wen, Dongjiang Chen, Yuanpeng Liu, Yunfa Dong, Chao Feng, Yupei Han, Jiecai Han, Yongqi Zhang*, Chuan Xia*, Andy (Xueliang) Sun and Weidong He*. Composite Separators for Robust High Rate Lithium Ion Batteries. Advanced Functional Materials, 2021, 31(32), 2101402. 30. Xingyi Zhang, Qingwei Sun, Cheng Zhen, Yinghua Niu, Yupei Han, Guangfeng Zeng, Dongjiang Chen, Chao Feng, Ning Chen, Weiqiang Lv* and Weidong He*. Recent progress in flame-retardant separators for safe lithium-ion batteries. Energy Storage Materials, 2021, 37, 628-647. 29. Dongjiang Chen, Chao Feng, Yupei Han, Bo Yu, Wei Chen, Ziqi Zhou, Ning Chen, John B Goodenough and Weidong He*. Origin of extra capacity in the solid electrolyte interphase near high-capacity iron carbide anode for Li ion batteries. Energy & Environmental Science, 2020, 13, 2924-2937. Back Cover Highlight. 28. Yang Yang, Jinfei Xiao, Chaoyue Liu, Dongjiang Chen, Hongbo Geng, Yufei Zhang, Jinbao Zhao, Cheng Chao Li* and Weidong He*. Uniform Li plating/stripping within Ni macropore arrays enabled by regulated electric field distribution for ultra-stable Li-metal anodes. iScience, 2020, 23(5), 101089. 27. Bismark Boateng, Yupei Han, Cheng Zhen, Guangfeng Zeng, Ning Chen, Dongjiang Chen, Chao Feng, Jiecai Han, Jie Xiong*, Xiangfeng Duan* and Weidong He*. Organosulfur compounds enable uniform lithium plating and long-term battery cycling stability. Nano Letters, 2020, 20, 4, 2594-2601. 26. Tianyu Lei, Yin Hu, Wei Chen, Weiqiang Lv, Yu Jiao, Xuepeng Wang, Xiaoxue Lv, Yichao Yan, Jianwen Huang, Junwei Chu, Chaoyi Yan, Chunyang Wu, Xianfu Wang*, Weidong He* and Jie Xiong*. Genetic Engineering of Porous Sulfur Species with Molecular Target Prevents Host Passivation in Lithium Sulfur Batteries. Energy Storage Materials, 2020, 26, 65-72. 25. Muhammad Waqas, Yupei Han, Dongjiang Chen, Shamshad Ali, Cheng Zhen, Chao Feng, Botao Yuan, Jiecai Han and Weidong He*. Molecular ‘capturing’ and ‘seizing’ MoS2/TiN interlayers suppress polysulfide shuttling and self-discharge of Li-S batteries. Energy Storage Materials, 2020, 27, 333-341. 24. Jipeng Liu, Liwei Dong, Dongjiang Chen, Yupei Han, Yifang Liang, Mengqiu Yang, Jiecai Han, Chunhui Yang* and Weidong He*. Metal oxides with distinctive valence states in an electron-rich matrix enable stable high-capacity anode for Li ion batteries. Small Methods, 2020, 4(2), 1900753. 23. Tianyu Lei, Wei Chen, Weiqiang Lv, Jianwen Huang, Jian Zhu, Junwei Chu, Chaoyi Yan, Chunyang Wu, Yichao Yan, Weidong He*, Jie Xiong*, Yanrong Li, Chenglin Yan, John B. Goodenough and Xiangfeng Duan*. Inhibiting Polysulfide Shuttling with a Graphene Composite Separator for Highly Robust Lithium-Sulfur Batteries. Joule, 2019, 2: 2091-2104. 22. Wei Chen, Tianyu Lei, Weiqiang Lv, Yin Hu, Yichao Yan, Yu Jiao, Weidong He*, Zhenghan Li, Chenglin Yan* and Jie Xiong*. Atomic Interlamellar Ion Path in High Sulfur Content Lithium-Montmorillonite Host Enables High-Rate and Stable Lithium-Sulfur Battery. Advanced Materials, 2019, 40: 1804084. 21. Liwei Dong, Jipeng Liu, Dongjiang Chen, Yupei Han, Yifang Liang, Mengqiu Yang, Chunhui Yang* and Weidong He*. Suppression of Polysulfide Dissolution and Shuttling with Glutamate Electrolyte for Lithium Sulfur Batteries. ACS Nano, 2019, 13(12), 14172-14181. 20. Dongjiang Chen, Ziqi Zhou, Chao Feng, Weiqiang Lv, Zhaohuan Wei, Kelvin H. L. Zhang, Bin Lin, Songhao Wu, Tianyu Lei, Xuyun Guo, Gaolong Zhu, Xian Jian*, Jie Xiong*, Enrico Traversa, Shixue Dou and Weidong He*. An Upgraded Lithium Ion Battery Based on a Polymeric Separator Incorporated with Anode Active Materials. Advanced Energy Materials, 2019, 9(15), 1803627. 19. Muhammad Waqas, Shamshad Ali, Chao Feng, Dongjiang Chen, Jiecai Han and Weidong He*. Recent Development in Separators for High‐Temperature Lithium‐Ion Batteries. Small, 2019, 1901689. 18. Bo Yu, Dongxu Yang, Yang Hu, Jiarui He*, Yuanfu Chen* and Weidong He*. Mo2C Nanodots Anchored on N‐Doped Porous CNT Microspheres as Electrode for Efficient Li‐Ion Storage. Small Methods, 2019, 3(2), 1800287. 17. Kechun Wen, Mingfu Xia, Pan Deng, Weiqiang Lv and Weidong He*. A sandwich-structured double-battery device for direct evaluation of lithium diffusion coefficients and phase transition in electrodes of lithium ion batteries. Chemical Engineering Science, 2019, 200, 80-86. 16. Wei Chen, Tianyu Lei, Tao Qian, Weiqiang Lv, Weidong He*, Chunyang Wu, Xuejun Liu, Jie Liu, Bo Chen, Chenglin Yan* and Jie Xiong*. A New Hydrophilic Binder Enabling Strongly Anchoring Polysulfides for High-Performance Sulfur Electrodes in Lithium Sulfur Battery. Advanced Energy Materials, 2018, 8 (12), 1702889. 15. Tianyu Lei, Wei Chen, Yin Hu, Weiqiang Lv, Xiaoxue Lv, Yichao Yan, Jianwen Huang, Yu Jiao, Junwei Chu, Chaoyi Yan, Chunyang Wu, Qiang Li*, Weidong He* and Jie Xiong*. A Nonflammable and Thermotolerant Separator Suppresses Polysulfide Dissolution for Safe and Long‐Cycle Lithium‐Sulfur Batteries. Advanced Energy Materials, 2018, 8 (32), 1802441. 14. Wei Chen, Tianyu Lei, Chunyang Wu, Min Deng, Chuanhui Gong, Kai Hu, Yinchang Ma, Liping Dai, Weiqiang Lv, Weidong He*, Xuejun Liu, Jie Xiong* and Chenglin Yan*. Designing Safe Electrolyte System for High-Stability Lithium-Sulfur Battery. Advanced Energy Materials, 2018, 8 (10), 1702348. 13. Songhao Wu, Gaoliang Fu, Weiqiang Lv, Jiake Wei, Wenjin Chen, Huqiang Yi, Meng Gu, Xuedong Bai, Liang Zhu, Chao Tan, Yachun Liang, Gaolong Zhu, Jiarui He, Xinqiang Wang, Kelvin H. L. Zhang, Jie Xiong* and Weidong He*. A single-step hydrothermal route to 3D hierarchical CuO/rGO nanosheets as high-performance anode of lithium ion batteries. Small, 2018, 14 (5), 1702667. 12. Yinghua Niu, Weiqiang Lv, Zhaohuan Wei, Weirong Huo and Weidong He*. Synergistic effects of sulfur poisoning and gas diffusion on polarization loss in anodes of solid oxide fuel cells. AIChE Journal, 2018, 2018, 3, 1127-1134. 11. Jiarui He, Weiqiang Lv, Yuanfu Chen*, Kechun Wen, Chen Xu, Wanli Zhang, Yanrong Li, Wu Qin and Weidong He*. Tellurium-Impregnated Porous Cobalt-Doped Carbon Polyhedra as Superior Cathode for Lithium-Tellurium Batteries. ACS Nano, 2017, 11 (8), 8144–8152. 10. Songhao Wu, Weiqiang Lv, Tianyu Lei, Yidong Han, Xian Jian, Min Deng, Gaolong Zhu, Mingzhen Liu, Jie Xiong*, James H. Dickerson and Weidong He*. Distinctive supercapacitive properties of copper and copper oxide nanocrystals sharing a similar colloidal synthetic route. Advanced Energy Materials, 2017, 14, 1700105. Back Cover Highlight. 9. Yinghua Niu, Weiqiang Lv, Gaofeng Rao, Jiarui He and Weidong He*. A critical look into effects of electrode pore morphology in solid oxide fuel cells. AIChE Journal, 2017, 6, 2312-2317. 8. Jiarui He, Yuanfu Chen*, Weigiang Lv, Kechun Wen, Chen Xu, Wanli Zhang, Yanrong Li, Wu Qin and Weidong He*. From Metal-Organic Framework to Li2S@C-Co-N Nanoporous Architecture: A High-Capacity Cathode for Lithium-Sulfur Batteries. ACS Nano, 2016, 10(12), 10981–10987. 7. Jiarui He, Yuanfu Chen*, Weigiang Lv, Kechun Wen, Chen Xu, Wanli Zhang, Wu Qin and Weidong He*. Three-dimensional CNT/Graphene-Li2S Aerogel: A Freestanding Cathode with Ultrahigh Li2S Loading for High-performance Li-S Batteries. ACS Energy Letters, 2016, 1 (4), 820–826. 6. Jiarui He, Yuanfu Chen*, Weigiang Lv, Kechun Wen, Zegao Wang, Wanli Zhang, Yanrong Li, Wu Qin and Weidong He*. Three-dimensional Hierarchical Reduced Graphene Oxide/Tellurium Nanowires: A Superior Freestanding Cathode for Li-Te Batteries. ACS Nano, 2016, 10(9): 8837-8842. 5. Jiarui He, Yuanfu Chen*, Weigiang Lv, Kechun Wen, Pingjian Li, Zegao Wang, Wanli Zhang, Wu Qin and Weidong He*. Three-Dimensional Hierarchical Graphene-CNT@Se: A Highly Efficient Freestanding Cathode for Li-Se Batteries. ACS Energy Letters, 2016, 1: 16-20. 4. Luhan Ye, Kechun Wen, Zuoxiang Zhang, Fei Yang, Yachun Liang, Weiqiang Lv, Yukun Lin, Jianmin Gu, James H. Dickerson and Weidong He*. Highly Efficient Materials Assembly via Electrophoretic Deposition for Electrochemical Energy Conversion and Storage Devices. Advanced Energy Materials, 2016, 7, 1502018. Inside Front Cover Highlight. 3. Weidong He*, Xiao Lin, James H. Dickerson and John B. Goodenough. An electrochemical device for three-dimensional (3D) diffusivity measurement in fuel cells. Nano Energy, 2013, 2(5), 1004-1009. 2. Weidong He* and Bin Wang. A multisensor device for highly-efficient diffusivity measurement and overall-concentration-polarization evaluation in fuel cells. Advanced Energy Materials, 2012, 2, 329-333. Frontispiece Highlight. 1. Weidong He*, Bin Wang and James H. Dickerson. Overall concentration polarization and limiting current density of fuel cells with nanostructured electrodes. Nano Energy, 2012, 1, 828-832. 专著（*通讯作者） 名称 1. Weidong He*, Weiqiang Lv, James H. Dickerson. Gas transport in solid oxide fuel cells. Springer, 2014, ISBN: 978-3-319-09736-7. 2. Weidong He*, Kechun Wen, Yinghua Niu. Oriented-attachment Crystals for Energy Conversion Devices, Springer, 2018, ISBN: 3-319-72430-0. 3. Weidong He*. Synthesis, property analysis and assembly of ultra-small nanocrystals. Scholars’ Press, 2014, ISBN: 978-3-639-66408-9. 名称 先后指导和培养博士后、博士生与硕士生50余人，本科生10余人。部分学生去向： 1、学术界： 罗日鹏－－美国加州大学伯克利分校（UC-Berkeley）博士研究生（2022，全额奖学金）； 韩玉培－－英国伦敦大学学院（UCL）博士研究生（2021，全额奖学金）； 甄 诚－－南方科技大学博士研究生（2021）； 周子琪－－美国加州大学圣地亚哥分校研究生（2020）； 王旭畅－－美国宾夕法尼亚大学研究生（2020）； 杨 飞－－香港科技大学博士研究生（2019，全额奖学金）； 韩亦冬－－英国帝国理工大学博士研究生（2019，全额奖学金）； 文克春－－美国哥伦比亚大学机械工程系博士研究生（2018，全额奖学金）； 武松浩－－北京理工大学博士研究生（2018）； 朱高龙－－清华大学化工系张强教授课题组博士后（2018，博士毕业生），现清华大学宜宾研究院副研究员； 牛英华－－美国佐治亚理工大学Meilin Liu教授课题组联合培养（2018，博士在读），现电子科技大学湖州研究院副研究员； 叶露涵－－哈佛大学应用物理系博士研究生（2017，哈佛大学全额奖学金）； 李思达－－美国加州大学洛杉矶分校博士研究生（2016，UCLA全额奖学金）； 贺加瑞－－美国德州大学奥斯汀分校Arumugam Manthiram、John Goodenough实验室（2016，博士后），现东南大学教授、博导； 邹敏达－－美国克莱姆森大学材料科学与工程系博士研究生（2018，全额奖学金）； 石星逸－－香港理工大学材料科学与工程系博士研究生（2018，全额奖学金）； 费纪鹏－－慕尼黑工业大学&新加坡南洋理工大学联合培养博士研究生（2017，联合奖学金）； 张作翔－－法国高等电力学院新能源系统硕士研究生（2017）； 梁亚春－－电子科技大学基础研究院博士研究生（2017）； 张玉倩－－美国辛辛那提大学博士研究生（2014，全额奖学金）。 2、工业界： 冯 超－－国轩高科股份有限公司； 孙庆伟－－中国农业银行； 张兴意－－中兴通讯股份有限公司； 景潇鹏－－上海随训通电子科技有限公司； 赵焌颖－－德州仪器半导体制造有限公司； 何天杰－－华为； 刘静纳－－华为； 谈 超－－格力； 王 策－－京东方。 名称 期刊服务： 1、SCI期刊Chinese Chemical Letters、Nanotechnology、Nanotechnology Reviews和Nanomaterials编委； 2、InfoMat期刊青年编委； 3、Chemical Reviews, Nature Communications, Joule, Advanced Materials, Angewandte Chemie, Advanced Energy Materials, Advanced Functional Materials, Nano Letters, ACS Nano, Nano Energy, Energy Storage Materials, Small, Small Methods等期刊审稿人。 评审专家： 1、教育部青年科学奖考察专家； 2、邓稼先青年科技奖提名委员； 3、湖北省科技奖评审专家； 4、国家基金委评审专家； 5、教育部博士学位论文评审专家，博士后基金评审专家。 荣誉称号：1、国家发明协会发明创新金奖（一等奖，第一），2020； 2、国家级人才计划，2019； 3、中国产学研合作创新成果奖（个人奖），2019； 4、东莞市创业领军人才，2019； 5、成都市高层次创新创业人才，2019； 6、黑龙江省“龙江学者”特聘教授，2019； 7、五粮液本科生创新能力培养奖，2017年； 8、电子科技大学先进工作者，2016年； 9、电子科技大学“我最喜爱的老师”，2016年； 10、四川省特聘专家，2015年； 11、电子科技大学“百人计划”，2014年。