魏彤

作者:发布时间:2019-03-22浏览次数:561

魏彤(教授)

姓名:魏彤

系属:新能源材料系

学位:博士

职称:教授

专业:材料科学与工程

导师类别:硕导、博导

电子邮箱:weitong666@163.com

通讯地址:山东省青岛市黄岛区长江西路66

概况:近些年主要从事纳米碳及其复合材料的微观结构设计及其在能源与催化领域的应用。陆续在Adv.Mater.ACSNanoAdv.Funct. Mater.Adv.Energy Mater. Nano EnergyCarbonElectrochem.CommunJ.Power SourcesElectrochim.Acta等国际期刊发表SCI论文100余篇,累计SCI他引13000余次,共有26篇文章入选ESITop1% 高被引论文,分别获得20132016年黑龙江省自然科学一等奖(自然类,排名第2),入选2018年“科睿唯安”材料类高被引学者榜单

教育经历

  • 2000/3-2003/7,中国科学院山西煤化所,物理化学,博士,

  • 1997/9 -2000/3,天津大学,应用化学,硕士,

  • 1993/9 -1997/7,山东建筑材料工业学院(现济南大学),应用化学

工作经历

  • 2019/3 ~至今,中国石油大学华东,材料科学与工程学院,教授

  • 2010/3 ~2019/1,哈尔滨工程大学,材料科学与化学工程学院,教授

  • 2006/3 - 2010/3,哈尔滨工程大学,材料科学与化学工程学院,副教授

  • 2003/10 -2005/10,清华大学,化工系,博士后


主持或参加科研项目情况

1. 国家自然科学基金,51872056,有机物小分子在多级功能化碳纳米孔道的物理-化学双重约束行为及电化学储能研究、2019/01-2022/12、主持。

2. 国家自然科学基金,21003028,多层次纳米炭材料负载聚苯胺的构建与电化学特性研究、2011/01-2013/12、主持。

3. 黑龙江省自然科学基金面上项目,E201416,多维碳/聚苯胺复合电极材料的结构设计与电化学性能研究、2014/07-2016/06、主持。

4. 中央高校基础研究创新团队培育计划,HEUCET1411,多结构纳米碳材料的结构设计及可控制备,2014/01-2015/12、主持。

5. 中央高校基础研究创新团队培育计划,HEUCET1204,新型储能器件用石墨烯的制备及其电化学性能研究,2012/01-2014/12、主持。

6.  “863”计划重点项目,2008AA03A186离网式大功率LED移动应急照明集成技术开发、2008/01-2010/12、项目骨干。

7. 黑龙江省科技攻关重大项目,GA07A401-3,新型炭材料在半导体照明(LED)技术开发与应用,2007/01-2009/12、项目骨干。


科研奖励

1. 范壮军、魏彤、闫俊、王倩、江丽丽,支撑体石墨烯的结构设计及其电化学储能特性研究,2016,黑龙江省科学技术奖(自然)一等奖

2. 范壮军、魏彤、闫俊、冯静、任月明,基于石墨烯三维纳米材料的结构设计与可控合成,2013,黑龙江省科学技术奖(自然)一等奖。

3. 范壮军、王贵领、杨飘萍、闫俊、魏彤,新型纳米碳、氧化物及其复合功能材料的结构设计与性能研究,2011,黑龙江省高校科学技术奖(自然)一等奖。

代表性文章

1. WChen, H Yu, SY Lee, TWei,J Li, Z Fan*Nanocellulose:A promising nanomaterial for advanced electrochemical energystorage, Chem.Soc. Rev.,2018, 47: 2837-2872. (IF=40.182)

2. ZhouQ, *WeiTong,Liu Z, Zhang L, Yuan B, *Fan Z, Nickel hexacyanoferrate ongraphene sheets for high-performance asymmetric supercapacitorsin neutral aqueous electrolyte, ElectrochimicaActa.303 (2019) 40-48. (IF=5.116).

3. ZhangL, Yue J, *WeiT,Liu Z, Zhou J, Liu C, Jiang H, Jiang Z, *Fan Z, Densely pillaredholey-graphene block with high-level nitrogen doping enablingultra-high volumetric capacity for lithium ion storage, Carbon142 (2019) 327-336. (IF=7.082).

4. LiuZ, Zhang L, Sheng L, Zhou Q, *WeiT,*Feng J, *Fan Z, Edge-Nitrogen-Rich Carbon Dots PillaredGraphene Blocks with Ultrahigh Volumetric/Gravimetric Capacitiesand Ultralong Life for Sodium-Ion Storage, AdvancedEnergy Materials,2018, 8(30). (IF=21.875).

5. ZhouQ, Liu Z, *WeiT, Sheng L, Jiang Y, Jiang Z, *Fan Z, Fe(CN)63-ions confined intoporous pillared-carbon nanosheets for high energy densitysupercapacitors, Journalof Materials Chemistry A,2018, 6, 23885-23893. (IF=9.931).

6. ShengL, Jiang L, *WeiT,Zhou Q, Jiang Y, Jiang Z, Liu Z, *Fan Z, Fe(CN)63-ion-modifiedMnO2/graphene nanoribbons enabling high energy densityasymmetric supercapacitors, Journalof Materials Chemistry A.2018, 6, 7649-7658. (IF=9.931).

7. XuC, Liu Z, *WeiT,Sheng L, Zhang L, Chen L, Zhou Q, Jiang Z, *Wang L, Fan Z*,Mesoporous single-crystalline MnOx nanofibers@graphene forultra-high rate and long-life lithium-ion battery anodes,Journalof Materials Chemistry A.2018, 6, 24756-24766. (IF=9.931).

8. ZhouQ, *WeiT,Yue J, Sheng L, *Fan Z, Polyaniline nanofibers confined intographene oxide architecture for high-performancesupercapacitors, ElectrochimicaActa,291 (2018) 234e241. (IF=5.116).

9. ShengL, Jiang H, Liu S, *Chen M, *WeiT,*Fan Z, Nitrogen-doped carbon-coated MnO nanoparticles anchoredon interconnected graphene ribbons for high-performancelithium-ion batteries, Journalof Power Sources.397 (2018) 325-333. (IF=6.945).

10. ZhangL, *WeiT,Yue J, Sheng L, Jiang Z, Yang D, Yuan L, *Fan Z, Ultra-small andhighly crystallized ZnFe2O4nanoparticles within double graphene networks for super-longlife lithium-ion batteries, Journalof Materials Chemistry A.2017, 5(22): 11188-11196. (IF=9.931).

11. JiangL, Sheng L, Chen X, *WeiT,*Fan Z, Construction of nitrogen-doped porous carbon buildingsusing interconnected ultra-small carbon nanosheets forultra-high rate supercapacitors, Journalof Materials Chemistry A.,2016,4(29): 11388-11396 (IF=9.931).

12. ShengL, Jiang L, *WeiT,*Fan Z, High volumetric energy density asymmetricsupercapacitors based on well-balanced graphene andgraphene-MnO2,Small,2016,12(37):5217-5227. (IF=9.598)

13. ShengL, *WeT,Liang Y, Qu L, *Fan ZJ, Ultra-high toughness all graphene fibersderived from synergetic effect of interconnected grapheneribbons and graphene sheets,Carbon,2017,120:17-22. (IF=7.082)

14. Zhou,Q, Chang J, Jiang Y, *WeiT,Sheng L, *Fan Z, Fast charge rate supercapacitors based onnitrogen-doped aligned carbon nanosheet networks, ElectrochimicaActa,2017, 251:91-98. (IF=5.116)

15. ShengL,  Jiang L, WeiT,Liu Z , *Fan  ZSpatialcharge storage within honeycomb-carbon frameworks for ultrafastsupercapacitors with high energy and power densitiesAdvancedEnergy Materials,2017,19:1700668 (IF=21.875)

16. WangLWeiTShengL, Jiang L, Wu X, Zhou Q, Yuan B, Yue J, Liu Z, *Fan Z."Brick-and-mortar" sandwiched porous carbon buildingconstructed by metal-organic framework and graphene: Ultrafastcharge/discharge rate up to 2 V s(-1) for supercapacitors. NanoEnergy,2016, 19(30): 80-92  (IF=13.12 )

17. LongC, Qi D, WeiT,Yan J, Jiang L, *Fan Z. Nitrogen-doped carbon networks for highenergy density supercapacitors derived from polyaniline coatedbacterial cellulose. AdvancedFunctional Materials,2014, 24: 3953-3961. (IF=13.325)

18. YanJ, Wang Q, WeiT,*FanZ.Recent advances in design and fabrication of electrochemicalsupercapacitors with high energy densities. AdvancedEnergy Materials, 2014,4: 1300816. (IF=21.875)

19. YanJ, Wang Q, Lin C, WeiT,*Fan Z. Interconnected frameworks with a sandwiched porouscarbon layer/graphene hybrids for supercapacitors with highgravimetric and volumetric performances. AdvancedEnergy Materials,2014,4: 1400500. (IF=21.875)

20. YangD, Feng J, WeiT,and *Fan Z, Photocatalyst interface engineering: spatiallyconfined growth of ZnFe2O4within graphene networks as excellent visible-light-drivenphotocatalysts. AdvancedFunctional Material,2015, 25, 7080-7087.( IF=13.325

21. ShengL, Liang Y, Jiang L, Wang Q, WeiT,*Qu L and *Fan Z,  Bubbles decorated honeycomb-likegraphene film as ultra-high sensitivity pressure sensors.AdvancedFunctional Materials,2015, 25, 6545-6551 .  (IF=13.325)

22. JiangL, Sheng L, Long CWeiT*FanZFunctionalpillared graphene Frameworksfor ultra-high volumetric performancesupercapacitors. AdvancedEnergy Materials,2015,5:15, 1500771. (IF=21.875)

23. WuX, Jiang L, Long C,Wei T,*Fan Z. Dual support system ensuring porous Co-Al hydroxidenanosheets with ultrahigh rate performance and gigh energydensity for supercapacitors. AdvancedFunctional Materials,2015, 25, 1648-1655. (IF=13.325)

24. YanJ, Wang Q, WeiT,Jiang L, Zhang M, Jing X,*Fan Z. Template-assisted lowtemperature synthesis of functionalized graphene for ultrahighvolumetric performance supercapacitors. ACSNano,2014,  8 ,4720-729 (IF=13.709)

25. LongC, WeiT,Yan J, Jiang L, *Fan Z.Supercapacitorsbased on graphene-supported iron nanosheets as negativeelectrode materials. ACSNano.2013, 7, 11325-11332.  (IF=13.709)

26. *FanZ, Liu Y, Yan J, Ning G, Wang Q, WeiT,*Zhi L, *Wei F. Template-directedsynthesis of pillared-porous carbon nanosheet architectures:high-performance electrode materials for supercapacitors.AdvancedEnergy Materials,2012, 2, 419-424. (IF=21.875)

27. *FanZ, Yan J, WeiT,*Zhi L, Ning G, Li T, *Wei F. Asymmetricsupercapacitors based on graphene/MnO2and activated carbon nanofiber electrodes with high power andenergy density.AdvancedFunctional Materials.2011, 21, 2366-2375.  (IF=13.325)

28. *FanZ, Wang K, Yan J, WeiT,*Zhi L, Feng J, Ren, Y, Song Li, *Wei, F. Facilesynthesis of graphene nanosheets via Fe reduction of exfoliatedgraphite oxide. ACSNano,2011, 5, 191-198.(IF=13.709)