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韩俊伟(副教授)-ag旗舰厅在线

作者:审核:发布者:张秀良发布时间:2023-09-13浏览次数:1377

»姓名:韩俊伟

»系属:

»学位:博士

»职称:副教授

»专业:材料科学与工程

»导师类别:硕导

»电子邮箱:jwhan@upc.edu.cn

»联系电话:13132293720

»通讯地址:山东省青岛市黄岛区长江西路66

»概况:韩俊伟,中国石油大学(华东)副教授,山东省泰山学者青年专家,2022年底加入智林杰教授杰青团队。近年来聚焦高性能液态及固态体系锂/钠电池负极材料的电化学原理和结构设计研究,特别是在高比容量硅碳及硬碳等负极结构设计、高稳定电极与电极-电解液界面构建方面取得一系列进展。以一作或通讯作者在nature communadv materadv energy mater等国内外期刊发表高水平论文19篇,申请国内发明专利10件(已授权6件)、美欧日韩国际专利4件(已授权1件)。同时具有丰富的基础研究成果产业转化经验,作为技术负责人与华为、宁德时代等头部企业合作推进高致密硅碳电极材料导入电池应用。目前主持国家自然科学基金联合重点项目课题与青年基金、山东省泰山学者青年专家项目、工信部项目、博士后面上基金、天津大学优博基金等项目;曾获欧洲材料研究学会研究生奖emrs graduate student award、中国复合材料学会优秀博士学位论文提名奖、天津大学优秀博士学位论文等荣誉。

 ◎研究方向

1、液态及固态体系锂/钠离子电池负极材料

2、电池用高性能碳材料精确结构设计及制备


 ◎教育经历

2010-2014   青岛大学    学 士

2014-2020   天津大学    硕/博(导师:杨全红教授)    


 ◎工作经历

2020-2022   清华大学             博士后(合作导师:康飞宇教授)

2023-至 今   中国石油大学(华东) 副教授(智林杰教授杰青团队)


 ◎学术兼职

energy storage materials等能源期刊审稿人


 主讲课程

研究生科技论文写作


 ◎指导研究生及博士后

曾担任天津大学1门本科生创新课、2门研究生专业选修课和清华大学1门研究生课程助教,联合指导大创项目1项、本科毕业设计4人,指导获得第三届中国大学生动力电池创新竞赛全国铜奖、第一届全国大学生化学电源作品设计竞赛优胜奖等荣誉;曾作为团队锂离子电池研究方向负责人,联合指导硕/博研究生5名,获天津大学优秀毕业生、天津大学优秀硕士论文、国家奖学金等荣誉。目前作为团队锂/钠电池材料研究方向负责人,指导博士生2人,硕士生7人,本科大创团队2组。联合指导的本硕博士生中多人毕业前往包括马里兰大学、清华大学等国内外高校继续学术深造以及特斯拉公司、华为公司、宁德时代、万华化学集团等领域头部企业入职从事电池材料及电芯研发工作


 ◎承担项目

1、国家自然科学基金联合基金重点项目课题2024.01-2027.12,有序无序相调制构建高效储钠煤基硬碳负极及机制研究,主持,在研

2、山东省泰山学者青年专家项目2022.07-2025.06,致密储能材料及锂离子电池,主持,在研                                                                              3、国家自然科学基金青年基金2023.01-2025.12,微米硅负极“类细胞”碳基力学增韧结构可控构建和机制研究,主持,在研

4、液流电池双极板用天然石墨复合材料工信部项目,2023.8-2026.7,主持,在研            

5、中国博士后科学基金面上资助2021.06-2022.09,高体积比容量和力学稳定的微米硅碳负极设计及可控制备,主持,结题      


 ◎获奖情况

1.第一届全国先进储能技术创新挑战赛创新创意类比赛2022年度“技术创意二等奖”,2022

2.中国复合材料学会优秀博士学位论文提名奖,2022

3.天津大学优秀博士学位论文,2020

4.天津大学优秀博士学位论文基金,2019

5.第六届石墨烯青年论坛优秀报告奖,2018


 ◎荣誉称号

1.山东省泰山学者青年专家,2022

2.european materials research society (emrs) graduate student award, 2019


 著作

参与撰写学术专著2部:《石墨烯电化学储能技术》《动力电池技术创新及产业发展战略》


 论文

1、第一/通讯作者论文:

 (1) linkai peng(#), junwei han(#), yun cao, chuannan geng, zheng-ze pan, hirotomo nishihara, quan-hong yang, wei lv*. metal-halide gelated mxene and its use as a bifunctional sulfur host stabilizing both cathode and anode for practical lithium–sulfur batteries, advanced functional materials, 2023, 2310508

 (2) xinming zhang, zichen liu, wen liu, junwei han*, wei lv*. ultra-thin carbon shell-encapsulated cobalt nanoparticles with balanced activity and stability for lithium-sulfur batteries. acs applied materials & interfaces, 2023, accepted.

 (3) ziyun zhao(#), fanqi chen(#), junwei han(#), debin kong*, siyuan pan, jing xiao, shichao wu and quan-hong yang*. revival of microparticular silicon for superior lithium storage. advanced energy materials, 2023, 13, 2300367.

 (4) shuaiqin zhao, zetao ren, sichen gu, chen zhang, junwei han*, wei lv*. graphene membrane hosted compact lithium metal anode enabled by capillary force-tuned lithium infiltration. 2d materials, 2022, 9, 045024.

 (5) siyuan pan(#), junwei han(#), yiqiao wang, zhenshen li, fanqi chen, yong guo, zishan han, kefeng xiao, zhichun yu, mengying yu, shichao wu,* da-wei wang,* and quan-hong yang*. integrating sei into layered conductive polymer coatings for ultra-stable silicon anode. advanced materials, 2022, 34, 2203617.

 (6) ziyun zhao(#), junwei han(#), fanqi chen, jing xiao, yufei zhao, yifang zhang, debin kong, zhe weng, shichao wu,* and quan-hong yang*. liquid metal remedies silicon microparticulates toward highly stable and superior volumetric lithium storage. advanced energy materials, 2022, 12, 2103565.

 (7) jing xiao(#), junwei han(#), debin kong*, huifeng shi, xiaojuan du, ziyun zhao, fanqi chen, peng lan, shichao wu, yuefei zhang* and quan-hong yang*. “nano-spring” confined in a shrinkable graphene cage towards self-adaptable high capacity anodes. energy storage materials, 2022, 50, 554-562.

 (8) junwei hanjing xiaoying taodebin kongwei lvquan-hong yang*compact energy storagemethodology with graphenes and the applications, energy storage science and technology, 2022, 11, 1865-1873.

 (9) junwei han, huan li, quan-hong yang*. compact energy storage enabled by graphenes: challenges, strategies and progress. materials today, 2021, 51, 552-565.

 (10) jing xiao(#), junwei han(#), chen zhang, guowei ling*, feiyu kang and quan-hong yang*. dimensionality, function and performance of carbon materials in energy storage devices. advanced energy materials, 2021, 12, 2100775.

 (11) fanqi chen(#), junwei han(#), debin kong, jing xiao, shichao wu, dai-ming tang*, yaqian deng, wei lv, jun lu*, quan-hong yang*. 1000 wh l−1 lithium-ion batteries enabled by crosslink-shrunk tough carbon encapsulated silicon microparticle anodes. national science review, 2021, 8, nwab012.

 (12) xinliang wang(#), junwei han(#), chong luo, bin zhang, jiabin ma, zejian li, yan-bing he, quan-hong yang, feiyu kang*, and wei lv*. coordinated adsorption and catalytic conversion of polysulfides enabled by perovskite bimetallic hydroxide nanocages for lithium-sulfur batteries. small, 2021, 17, 2101538.

 (13) junwei han, chen zhang, debin kong, xinzi he, jing xiao, fanqi chen, ying tao, ying wan*, quan-hong yang*. flowable sulfur template induced fully interconnected pore structures in graphene artefacts towards high volumetric potassium storage. nano energy, 2020, 72, 104729.

 (14) junwei han, huan li, debin kong, chen zhang, hong li*, quan-hong yang*, liquan chen. realizing high volumetric lithium storage by compact and mechanically stable anode designs. acs energy letters, 2020, 5, 1986-1995.

 (15) junwei han, dai-ming tang, debin kong, fanqi chen, jing xiao, ziyun zhao, siyuan pan, shichao wu, quan-hong yang*. a thick yet dense silicon anode with enhanced interface stability in lithium storage evidenced by in-situ tem observations. science bulletin, 2020, 65, 1563.

 (16) lu wang(#), junwei han(#), debin kong*, ying tao, quan-hong yang*. enhanced roles of carbon architectures in high-performance lithium-ion batteries. nano-micro letters, 2019, 11, 5.

 (17) xiangrong chen(#), junwei han(#), xiaohui lv(#), wei lv*, chong luo, zhengze pan, siwei zhang, lei qin, feiyu kang, quan-hong yang*. dense yet highly ion permeable graphene electrodes by capillary-drying of holey graphene oxide assembly. journal of materials chemistry a, 2019, 7, 12691.

 (18) junwei han, wei wei, chen zhang, ying tao, wei lv, guowei ling, feiyu kang, quan-hong yang*. engineering graphenes from the nano- to the macro-scale for electrochemical energy storage. electrochemical energy reviews, 2018, 1, 139.

 (19) junwei han, debin kong, wei lv, dai-ming tang, daliang han, chao zhang, donghai liu, zhichang xiao, xinghao zhang, jing xiao, xinzi he, feng-chun hsia, chen zhang, ying tao, dmitri golberg, feiyu kang, linjie zhi, quan-hong yang*. caging tin oxide in three-dimensional graphene networks for superior volumetric lithium storage. nature communications,2018, 9, 402.


 专利

 (1) 韩俊伟,王雅飞,孔德斌,秦欣,田振宇,左明雪,郑同晖,一种硅烷沉积的多孔碳的负极材料的制备方法及其应用,申请时间2023-12-15专利申请号:2023117273151

 (2) 韩俊伟,龚学磊,孔德斌,刘永旭,刘婷,智林杰,邱青杰,一种基于煤基硬碳负极材料制备方法及其产品和应用,申请时间2024-01-09专利申请号:202410029157.0

 (3) 杨全红,韩俊伟,孔德斌,肖菁,陶莹,张辰,游从辉,一种石墨烯基锂离子电池负极材料,授权时间2019-07-05专利授权号:zl201710142248.5

 (4) 陶莹,韩俊伟,陈凡奇,杨全红,肖菁,张辰,采用硫模板以及双氧水活化提高锂离子电池纳米硅负极面载量的方法,授权时间2021-04-06专利授权号:zl201810099170.8

 (5) 杨全红,陈凡奇,韩俊伟,肖菁,张辰,陶莹,一种多级结构的锂电池用硅负极的制备方法,授权时间2020-10-20专利授权号:zl201810098979.5

 (6) 杨全红,陈凡奇,韩俊伟,肖菁,孔德斌,陶莹,一种具有长循环寿命微米硅碳复合负极材料的制备方法,授权时间2022-04-15专利授权号:zl202010052236.5

 (7) 张辰,杨全红, 梁家琛,凌国维,肖菁,韩俊伟,陶莹,游从辉,一种用于拦截 pm1.0 的空气净化材料及其制备方法,专利授权号: zl201710969209

 (8) 张辰,杨全红, 梁家琛,凌国维,肖菁,韩俊伟,陶莹,游从辉,一种兼具除臭及拦截 pm1.0效果的空气净化材料及其制备方法,专利授权号: zl201710969254

 (9) 陶莹,韩俊伟,杨全红,刘东海,张辰,游从辉,一种采用硫为模板调控三维石墨烯孔的方法,专利申请号:cn201710143033.5

 (10) 杨全红,肖菁,韩俊伟,陈凡奇,张辰,陶莹,一种石墨烯基锂离子电池负极材料的制备方法,专利申请号:cn201810098486.5

 (11)杨全红,陈凡奇,韩俊伟,肖菁,孔德斌,陶莹, クロン珪素一炭素複合負極材料の製造方法,日本专利jp7803,专利申请号:特願2021-550267

 (12)杨全红,陈凡奇,韩俊伟,肖菁,孔德斌,陶莹,micron silicon-carbon composite negative electrode material, preparation method therefor, negative electrode plate, and lithium ion battery,欧洲专利ec1953专利申请号:21740650.3

 (13)杨全红,陈凡奇,韩俊伟,肖菁,孔德斌,陶莹,composite anode material of micrometer-sized carbon-coated silicon, preparation method thereof, anode, and lithium-ion battery,美国专利us84666专利申请号:17/784238

 (14)杨全红,陈凡奇,韩俊伟,肖菁,孔德斌,陶莹,마이크론 실리콘 탄소 복합 음극재와  제조방법, 음극 극편  리튬 이온 전지,韩国专利kr1057专利申请号:10-2022-7028212




curriculum vitae-associate professor junwei han


research center on advanced chemical engineering and energy materials

china university of petroleum (east china)

qingdao 266580, china

phone: 13132293720

e-mail: jwhan@upc.edu.cn


education background

  • phd and master in applied chemistry, tianjin university, 2014-2020,supervised byprof. quan-hong yang

  • bachelor in chemistry, qingdao university, 2010-2014.


research interests

  1. lithium/sodium battery anode materials.

  2. carbon materials for high-performance rechargeable batteries.

  3. materials electrochemistry.


past appointments and research experience

  • associate professor (12/2022-), research center on advanced chemical engineering and energy materials, china university of petroleum (east china), qingdao, china.

  • post doc (9/2020-9/2022), tsinghua shenzhen international graduate school, tsinghua university, shenzhen, china.


main honors and awards

  • taishan scholar of shandong province, 2022

  • excellent doctoral dissertation of tianjin university, 2020

  • european materials research society (emrs) graduate student award, 2019


brief profile for research activities

  • publications and citationshis research contributes to over 34 peer-reviewed papers with a citation over 1500 times. these papers were published on nature communications,advanced materials,materials today, advanced energy materials, advanced functional materials, etc.

  • patents: 10 granted patents.

  • main projects under research

  1. national natural science foundation of china (u23b2077), 2024-2027.

  2. national natural science foundation of china (52202041), 2024-2027.

  3. taishan scholar project of shandong province (tsqn202211086), 2022-2025.


publications (as first author or corresponding author):


  1.  linkai peng(#), junwei han(#), yun cao, chuannan geng, zheng-ze pan, hirotomo nishihara, quan-hong yang, wei lv*. metal-halide gelated mxene and its use as a bifunctional sulfur host stabilizing both cathode and anode for practical lithium–sulfur batteries, advanced functional materials, 2023, 2310508

  2.  xinming zhang, zichen liu, wen liu, junwei han*, wei lv*. ultra-thin carbon shell-encapsulated cobalt nanoparticles with balanced activity and stability for lithium-sulfur batteries. acs applied materials & interfaces, 2023, accepted.

  3.  ziyun zhao(#), fanqi chen(#), junwei han(#), debin kong*, siyuan pan, jing xiao, shichao wu and quan-hong yang*. revival of microparticular silicon for superior lithium storage. advanced energy materials, 2023, 13, 2300367.

  4.  shuaiqin zhao, zetao ren, sichen gu, chen zhang, junwei han*, wei lv*. graphene membrane hosted compact lithium metal anode enabled by capillary force-tuned lithium infiltration. 2d materials, 2022, 9, 045024.

  5.  siyuan pan(#), junwei han(#), yiqiao wang, zhenshen li, fanqi chen, yong guo, zishan han, kefeng xiao, zhichun yu, mengying yu, shichao wu,* da-wei wang,* and quan-hong yang*. integrating sei into layered conductive polymer coatings for ultra-stable silicon anode. advanced materials, 2022, 34, 2203617.

  6.  ziyun zhao(#), junwei han(#), fanqi chen, jing xiao, yufei zhao, yifang zhang, debin kong, zhe weng, shichao wu,* and quan-hong yang*. liquid metal remedies silicon microparticulates toward highly stable and superior volumetric lithium storage. advanced energy materials, 2022, 12, 2103565.

  7.  jing xiao(#), junwei han(#), debin kong*, huifeng shi, xiaojuan du, ziyun zhao, fanqi chen, peng lan, shichao wu, yuefei zhang* and quan-hong yang*. “nano-spring” confined in a shrinkable graphene cage towards self-adaptable high capacity anodes. energy storage materials, 2022, 50, 554-562.

  8. junwei han, jing xiao, ying tao, debin kong, wei lv, quan-hong yang*, compact energy storage: methodology with graphenes and the applications, energy storage science and technology, 2022, 11, 1865-1873.

  9. junwei han, huan li, quan-hong yang*. compact energy storage enabled by graphenes: challenges, strategies and progress. materials today, 2021, 51, 552-565.

  10.  jing xiao(#), junwei han(#), chen zhang, guowei ling*, feiyu kang and quan-hong yang*. dimensionality, function and performance of carbon materials in energy storage devices. advanced energy materials, 2021, 12, 2100775.

  11.  fanqi chen(#), junwei han(#), debin kong, jing xiao, shichao wu, dai-ming tang*, yaqian deng, wei lv, jun lu*, quan-hong yang*. 1000 wh l−1 lithium-ion batteries enabled by crosslink-shrunk tough carbon encapsulated silicon microparticle anodes. national science review, 2021, 8, nwab012.

  12.  xinliang wang(#), junwei han(#), chong luo, bin zhang, jiabin ma, zejian li, yan-bing he, quan-hong yang, feiyu kang*, and wei lv*. coordinated adsorption and catalytic conversion of polysulfides enabled by perovskite bimetallic hydroxide nanocages for lithium-sulfur batteries. small, 2021, 17, 2101538.

  13. junwei han, chen zhang, debin kong, xinzi he, jing xiao, fanqi chen, ying tao, ying wan*, quan-hong yang*. flowable sulfur template induced fully interconnected pore structures in graphene artefacts towards high volumetric potassium storage. nano energy, 2020, 72, 104729.

  14. junwei han, huan li, debin kong, chen zhang, hong li*, quan-hong yang*, liquan chen. realizing high volumetric lithium storage by compact and mechanically stable anode designs. acs energy letters, 2020, 5, 1986-1995.

  15. junwei han, dai-ming tang, debin kong, fanqi chen, jing xiao, ziyun zhao, siyuan pan, shichao wu, quan-hong yang*. a thick yet dense silicon anode with enhanced interface stability in lithium storage evidenced by in-situ tem observations. science bulletin, 2020, 65, 1563.

  16.  lu wang(#), junwei han(#), debin kong*, ying tao, quan-hong yang*. enhanced roles of carbon architectures in high-performance lithium-ion batteries. nano-micro letters, 2019, 11, 5.

  17.  xiangrong chen(#), junwei han(#), xiaohui lv(#), wei lv*, chong luo, zhengze pan, siwei zhang, lei qin, feiyu kang, quan-hong yang*. dense yet highly ion permeable graphene electrodes by capillary-drying of holey graphene oxide assembly. journal of materials chemistry a, 2019, 7, 12691.

  18. junwei han, wei wei, chen zhang, ying tao, wei lv, guowei ling, feiyu kang, quan-hong yang*. engineering graphenes from the nano- to the macro-scale for electrochemical energy storage. electrochemical energy reviews, 2018, 1, 139.

  19. junwei han, debin kong, wei lv, dai-ming tang, daliang han, chao zhang, donghai liu, zhichang xiao, xinghao zhang, jing xiao, xinzi he, feng-chun hsia, chen zhang, ying tao, dmitri golberg, feiyu kang, linjie zhi, quan-hong yang*. caging tin oxide in three-dimensional graphene networks for superior volumetric lithium storage. nature communications, 2018, 9, 402.


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