吴宇平

动力工程及自动化系首席教授
博士生导师

通讯方式:wuyp@seu.edu.cn

研究方向:

储能科学与工程,包括:
(1)锂电池          (2)超级电容器
(3)水溶液电池       (4)固体电解质

目前团队成员:

1、朱智,青年首席教授(海外优青)、博导:https://power.seu.edu.cn/zz/list.htm

2、贺加瑞,青年首席教授(海外优青)、博导:https://power.seu.edu.cn/hjr/list.htm

3、仲逸人,青年首席教授(海外优青)、博导:https://power.seu.edu.cn/zyr/list.htm

4、程新兵,青年首席教授(青年长江)、博导:https://power.seu.edu.cn/cxb/list.htm

5、马源,青年首席教授(海外优青),博导:https://power.seu.edu.cn/my/list.htm  

6、王法星,青年首席教授(海外优青),博导:https://power.seu.edu.cn/wfx/list.htm

7、汪涛,副教授,硕导:https://power.seu.edu.cn/wt/list.htm

办公地点:科远楼327

 

 

个人简介

吴宇平,二级教授,博士生导师,英国皇家化学会会士,德国萨克森科学院通讯院士。1997年毕业于中国科学院化学研究所,获博士学位。此后在清华大学、日本早稻田大学、德国开姆尼兹工业大学(洪堡学者)各工作近2年。2003年任复旦大学化学系教授,2015年任南京工业大学教授,202110月进入东南大学工作。2004年、2007年获上海市科委“科技启明星”,2014年获国家杰出青年基金。共发表410多篇学术论文,H-指数106+;撰写9部关于锂电池的专著,销量超过5万册;获得中国、美国、日本在内授权发明专利312014年获得“国家杰出青年科学家”称号,多次入选全球高被引科学家之列,2015年被汤森路透从全球高被引科学家评为全球最具影响力的科研精英。担任Energy Materials的主编、Energy & Enviromental Materials的副主编和其它一些刊物的编委等职务。主要从事锂离子电池及其关键材料、超级电容器、水系电池等储能方面的研究和开发工作。

团队现有教授7人、副教授1人,每年可招研究生20名左右,博士后若干,热烈欢迎对新能源电池、纳米材料相关领域感兴趣的同学和青年教师加盟我们三尺储能团队(团队网址:http://ypwucesl.com


教学课程

(1)本科生课程:《储能化学基础》
此前主讲《应用电化学》、《工业电化学》、《超级电容器》等课程
(2)博士生课程(与程新兵教授一起):《储能专题》

科研 教改项目

近5年主持和参与:
(1)新型混合电池电容化学体系构建及其储能机理的研究,BE2022031-4
2022.7-2026.6380万元

(2)低成本混合型超级电容器关键关键材料与技术及兆瓦级系统示范,2021YFB2400400,科技部重点研发项目,2021.12-2025-11,3000万元,主持

(3)固体锂电池用复合解质的设计与制备,52131306,国家自然科学基金重点项目,2022.01-2026.12,300万元,主持

(4)锂硫电池复合隔膜的研究,52073143,国家自然科学基金面上项目,2021.01-2024.12,59万元,主持

(5)高比能固态锂电池技术,课题1 “刚柔并济复合固态电解质的设计与制造,2018YFB0104301,科技部重点研发项目,2018.5-2021.4514万元,主持

(6)基于材料基因组技术的全固态锂电池及其关键材料研发,2016YFB0700600, 课题全固态锂电池材料与电池研究,2016YFB0700604,科技部重点研发项目,2016.7-2020.12105万元,参与

(7)高能量密度水溶液可充锂/锌电池的研究,U1601214,直接经费240万元,国家自然科学基金委联合,2017.1-2020.12主持

(8)新型储能体系的研究,20171239,江苏省人社厅,江苏省双创人才,2018.1-2020.1250万元,主持

(9)电化学储能复合材料,51425301,国家自然科学基金委杰出青年项目,2015.1-2019.12400万元,主持

(10)双创人才创新团队,江苏省人社厅,2017.1-2019.1230万元,参与




论文 专著

部分代表性论文:

Published in 2022:

1).      Lili Liu, Yihao Liu, Chen Wang, Xiaohui Peng, Weiwei Fang*, Jun Wang, Jilei Ye, Yusong Zhu, Lijun Fu, Yuping Wu*, Li2O2 formation electrochemistry and its influence on oxygen reduction/evolution reaction kinetics in aprotic Li-O2 batteries, Small Methods, 6: 210128 (1-28) (2022)  (IF = 15.367)

2).      Chengyong Shu, Qiang Tan, Chengwei Deng, Wei Du, Zhuofan Gan, Yan Liu, Chao Fan, Hui Jin, Wei Tang*, Xiao-dong Yang*, Xiaohua Yang*, Yuping Wu*, Hierarchically mesoporous carbon spheres coated with a single atomic Fe–N–C layer for balancing activity and mass transfer in fuel cells, Carbon Energy, 4: 1-11 (2022). (IF = 21.556) (Cover)

3).      Deqing Cao, Xiaoxiao Shen, Aiping Wang, Fengjiao Yu, Yuping Wu, Siqi Shi*, Stefan A. Freunberger*, Yuhui Chen*, Sharp kinetic acceleration potentials during mediated redox catalysis of insulators, Nature Catalysis, 5: 193–201 (2022) (IF = 40.706)

4).      Wenqi Yan,Xiangwen Gao,* Jin-Lin Yang, Xiaosong Xiong, Shuang Xia, Wen Huang, Yuhui Chen, Lijun Fu, Yusong Zhu,* and Yuping Wu*, Boosting polysulfide catalytic conversion and facilitating Li+ transportation by ion-selective COFs composite nanowire for Li-S batteries, Small, 18: 2106679 (2022). (IF = 15.153

5).      Yidan Sun, Fenfen Wang, Fang Liu, Shukang Zhang, Shulin Zhao, Juan Chen, Yan Huang, Xiaojing Liu*, Yuping Wu, Yuhui Chen*, Accelerating Pd-electrocatalysis for CO2 to formate across a wide potential window by optimized incorporation of Cu, ACS Applied Materials & Interfaces, 14, 8896−8905 (2022). (IF = 10.383)

6).      Xiaosong Xiong, Xiongwei Wu, Wenqi Yan, Yusong Zhu, Yuhui Chen, Lili Liu*, Lijun Fu, Yuhui Chen, Nengfei Yu, Yuping Wu*, Bin Wang, Rui Xiao, Li4Ti5O12 coating on copper foil as ion redistributor interphase layer for stable lithium metal anode, Advanced Energy Materials, 12: 2103112 (2022)(IF = 29.698)  (ESI Highly Cited Papers 2022)

7).      Deyuan Li, Lanling Zhao, Qing Xia, Lili Liu, Weiwei Fang, Yao Liu,* Zhaorui Zhou, Yuxin Long, Xue Han, Yiming Zhang, Jun Wang,* Yuping Wu, and Huakun Liu*, CoS2 nanoparticles anchored on MoS2 nanorods as a superior bifunctional electrocatalyst boosting Li2O2 heteroepitaxial growth for rechargeable Li-O2 batteries, Small, 18: 2105752 (2022). (IF = 15.153

8).      Yihao Liu, Xiaohui Peng, Chen Wang, Weiwei Fang, Yusong Zhu, Yuhui Chen*, Lili Liu*, Yuping Wu, Formation/decomposition of Li2O2 induced by porous NiCeOx nanorod catalyst in aprotic lithium oxygen batteries, ACS Applied Materials & Interfaces, 14: 16214−16221 (2022). (IF = 10.383)

9).      Weijia Fan, Zhenwen Sun, Ye Yuan, Xinhai Yuan, Qinghong Huang, Jilei Ye, Lijun Fu*, Veniamin Kondratiev, Yuping Wu,* High cycle stability of Zn anode boosted by an artificial electronic-ionic mixed conductor coating layer, Journal of Material Chemistry A, 10: 7645–7652 (2022).  (IF = 14.511)

10).    Nengfei Yu*, Hui Chen,  Jingbiao Kuang,  Kailin Bao,  Wei Yan,  Jilei Ye*,  Zhongtang Yang, Qinghong Huang, Yuping Wu*, and Shigang Sun*, Efficient oxygen electrocatalysts with highly-exposed Co-N4 active sites on N-doped graphene-like hierarchically porous carbon nanosheets enhancing the performance of rechargeable Zn-air batteries, Nano Research, 15(8): 7209−7219 (1-11) (2022). (IF = 10.269

11).     Junwei Wu, Zhuang Xue, Lixuan Yuan, Jilei Ye, Qinghong Huang*, Lijun Fu*, Yuping Wu, Advances on Na-K liquid alloy-based batteries, Journal of Energy Chemistry, 71: 313–323 (2022). (IF = 13.599

12).    Xiaosong Xiong, Rui Sun, Wenqi Yan, Qiao Qiao, Yusong Zhu, Lili Liu, Lijun Fu, Nengfei Yu,* Yuping Wu,* and Bin Wang, Lithiophilic AlN modified copper layer for high-performance lithium metal anode, Journal of Material Chemistry A, 10: 13814 – 13820 (2022) (IF = 14.511) 

13).    Qing Zhang, Tengfei Duan, Manjun Xiao, Yong Pei, Xianyou Wang, Chunyi Zhi, Xiongwei Wu*, Bei Long*, Yuping Wu, BiOI nanopaper as a high-capacity, long-life and insertion-type anode for flexible quasi-solid-state Zn ion full battery, ACS Applied Materials & Interfaces, 14: 25516-25523 (2022) (IF = 10.383)

14).    Wenqi Yan, Jin-lin Yang, Xiaosong Xiong, Lijun Fu, Yuhui Chen, Zhaogeng Wang*, Yusong Zhu, Tao Wang, Yuping Wu*, Versatile asymmetric separator with dendrite-free alloy anode enables high-performance Li-S batteries, Advanced Science, 9: 2202204 (1-10) (2022). (IF = 17.521)

15).    Shiyu Zhou, Jingzhen Du, Xiaosong Xiong, Lili Liu, Jing Wang,*, Lijun Fu, Jilei Ye*, Yuhui Chen, and Yuping Wu*, Direct recovery of scrapped LiFePO4 by a green and low-cost Electrochemical re-lithiation method, Green Chemistry, 24: 6278–6286 (2022). (IF = 11.034

16).    Qi Zhou, Xiaoyan Yang, Xiaosong Xiong, Qianyu Zhang*, Bohao Peng, Yuhui Chen, Zhaogen Wang, Lijun Fu, Yuping Wu*, A solid electrolyte based on Electrochemical active Li4Ti5O12 with PVDF for solid state lithium metal battery, Advanced Energy Materials, 2022, 12: 2201991 (2022). (IF = 29.698

17).    Zaichun Liu, Jinlong Yang*, Faxing Wang, Yuan Yuan, Taoli Jiang, Zhengxin Zhu, Ke Li, Shuang Liu, Kai Zhang, Weiping Wang, Mingyan Chuai, Jifei Sun, Yuping Wu*, Wei Chen*, Descriptor-driven computational design of low cost and high-performance bifunctional double-atom HER/HOR electrocatalysts for rechargeable hydrogen gas batteries, Nano Letters, 22: 7860−7866 (2022).  (IF = 12.262

18).    Fei Ye, Qiang Liu, Chengjie Lu, Fanqi Meng, Ting Lin, Hongliang Dong, Lin Gu*, Yuping Wu, Zilong Tang, Linfeng Hu*, Inorganic manganese oxide/quinone coupling for high-capacity aqueous Zn-ion battery, Energy Storage Materials, 52, 675-684 (2022).  (IF = 20.831

19).    Bei Long, Qing Zhang, Tengfei Duan, Ting Song, Yong Pei, Xianyou Wang, Chunyi Zhi, Xiongwei Wu*, Qianyu Zhang,*, Yuping Wu, Few-atomic-layered Co-doped BiOBr nanosheet: free-standing anode with ultrahigh mass loading for “rocking chair” zinc-ion battery, Advanced Science, 9: 2204087 (1-11) (2022). (IF = 17.521).

(IF: disclosed in 2022)

Published prior to 2022:

(1). Xinhai Yuan#, Fuxiang#, Linqing Zuo, Jing Wang, Nengfei Yu, Yuhui Chen, Yusong Zhu, Qinghong Huang*, Rudolf Holze, Yuping Wu*, Teunis van Ree, Latest advances in high voltage and high energy density aqueous rechargeable batteries, Electrochem. Energ. Rev., 4, 1-34 (2021). (IF = 28.905)

(2).   Fuzhi Cui#, ZaichunLiu#, Deli Ma#, LiliLiu, Ting Huang, Panpan Zhang, Deming Tan, Faxing Wang,* Guofang Jiang* and Yuping Wu*, Polyarylimide and porphyrin based polymer microspheres for zinc ion hybrid capacitors, Chemical Engineering Journal, 405: 127038 (1-8) (2021). (IF = 10.652) (Highly Cited Paper)

(3).   Lili Liu, H.P. Guo, L.J. Fu, S.L. Chou, J. Chen, S. Thiele*, Y.P. Wu* and J.Z. Wang*, Critical advances in ambient air operation of non-aqueous rechargeable Li-air batteries, Small, 17, 1903854 (1-32) (2021) (IF = 13.281)

(4).   Wenqi Yan, Xiangwen Gao*, Xin Jin, Shishuo Liang, Xiaosong Xiong, Zaichun Liu, Zhaogen Wang, Yuhui Chen, Lijun Fu, Yi Zhang, Yusong Zhu, Yuping Wu,* A nonporous gel electrolyte enables long cycling at high current density for lithium metal anode, ACS Appl. Mater. Interf., 13(12), 14258-14266 (2021) (IF = 9.229)

(5).   Peng Chen#, Xinhai Yuan#, Yingbin Xia, Yi Zhang, Lijun Fu*, Lili Liu, Nengfei Yu, Qinghong Huang, Bin Wang, Xianwei Hu*, Yuping Wu*, Teunis van Ree, An artificial polyacrylonitrile coating layer confining zinc dendrite growth for highly reversible aqueous zinc-based batteries, Adv. Sci., 8(11), 2100309 (1-9) (2021). (IF = 16.806)

(6).   Zaichun Liu,# Ting Huang#, Huhu Chang, Faxing Wang, Juan Wen, Haodong Sun, Masud Hossain, Qingji Xie, Qinghong Huang*, Yan Zhao,* and Yuping Wu,* Computational design of single Mo atom anchored defective boron phosphide monolayer as a high-performance electrocatalyst for the nitrogen reduction reaction, Energy Environ. Mater., 4, 255-262 (2021) (IF =15.122)

(7).   Zheng Chang#, Feng Yu#, Jing Wang, Nengfei Yu, Yusong Zhu, Lijun Fu*, Yuhui Chen* , Yuping Wu* and Tao Zhang, Co-Ni Alloy encapsulated by N-doped graphene as a cathode catalyst for rechargeable hybrid Li-air batteries, ACS Applied Materials & Interface, 12, 4366−4372 (2020) (IF = 9.229)

(8).   Xinhai Yuan#, Jun Mo#, Jingang Yu, Jun Liu, Canming Liu, Xianxiang Zeng, Wenxin Zhou, Junpei Yue,* Xiongwei Wu,* and Yuping Wu*, An aqueous hybrid zinc-bromine battery with high voltage and energy density, ChemElectroChem, 7, 1531–1536 (2020) (IF = 4.59) (Cover, VIP)

(9).   Zhaoyong Jin#, Chuangwei Liu#, Zaichun Liu#, Jingrui Han, Yanfeng Fang, Yaqian Han, Yuping Wu,* Chenghua Sun*, Yuanhong Xu*, Rational design of hydroxyl-rich Ti3C2Tx MXene quantum dots for high-performance electrochemical N2 reduction, Adv. Energy Mater., 10, 2000797(1-8) (2020) (IF = 29.368)

(10).  Ting Huang#, Zaichun Liu#, Yu Zhang, Faxing Wang, Juan Wen, Chengyin Wang, Masud Hossain, Qingji Xie,* Shouzhuo Yao,* Yuping Wu,*, Promoting electrocatalytic nitrogen reduction to ammonia via iron-boosting nitrogen activation on MnO2 surfaces, J. Mater. Chem. A, 8, 13679 – 13684 (2020) (IF = 12.731)

(11).  Yu Liu, Haodong Dai, Yongkang An, Lijun Fu, * Qinyou An* and Yuping Wu*, A facile and scalable synthesis of sulfur/selenium co-doped hard carbon anode for high performance Na- and K-ion batteries, J. Mater. Chem. A, 8(30): 14993-15004 (2020) (IF = 12.731)

(12).  Chaolin You,# Xiongwei Wu,# Xinhai Yuan, Yuhui Chen, Lili Liu, Yusong Zhu, Lijun Fu,* Yuping Wu,* Yuguo Guo,* and Teunis van Ree, Advance on rechargeable Mg batteries, J. Mater. Chem. A, 8, 25601 – 25625 (2020). (IF = 12.731)

(13).  Xinhai Yuan#, Xiongwei Wu#, Xian-Xiang Zeng, Faxing Wang, Jing Wang, Yusong Zhu, Lijun Fu*, Yuping Wu*, Xiangfeng Duan, A fully aqueous hybrid electrolyte rechargeable battery with high voltage and high energy density, Adv. Energ. Mater., 10: 2001583 (1-7)(2020) (IF = 29.368)

(14).  Nengfei Yu#, Chang Wu#, Daqian Ruan, Kailin Bao, Wen Huan, Yi Zhang, Yusong Zhu, Qinghong Huang, Weihong Lai, Yunxiao Wang, Yuping Wu*, Shigang Sun*, and Jiazhao Wang*, Highly efficient Co3O4/Co@NCs bifunctional oxygen electrocatalysts for long life rechargeable Zn-air batteries,Nano Energy, 77, 105200 (1-11) (2020). (IF = 17.881) 

(15).  Ting Huang‡, Zaichun Liu‡, Feng Yu, Faxing Wang,* Lijun Fu, Yuhui Chen, Hongxia Wang, Qingji Xie,* Shouzhuo Yao, Yuping Wu*, Boosting capacitive sodium ion storage in electrochemically exfoliated graphite for sodium ion capacitors, ACS Applied Mater. Interface, 12, 52635−52642 (2020) (IF = 9.229)

(16).  Yingqiang Wu, Wenxi Wang, Jun Ming, Mengliu Li, Leqiong Xie, Xiangming He, Shuquan Liang,* Jing Wang, and Y.P. Wu*, An exploration of new energy storage system: high energy density, high safety and fast charging lithium ion battery, Adv. Funct. Mater., 29: 1805978 (1-7) (2019). (IF = 18.808)

(17). Chunyang Li, Wenzhuo Wu, Peng Wang, Weibin Zhou, Jin Wang, Yuhui Chen, Lijun Fu*, Yusong Zhu*, Yuping Wu,* and Wei Huang, Fabricating aqueous symmetric supercapacitor with a stable high working voltage of 2 V by using an alkaline-acidic electrolyte, Adv. Sci., 6: 1801665 (2019). (IF = 16.806) (Highly Cited Paper)

(18).  Qiaobao Zhang#, Zaichun Liu, Bote Zhao, Lei Zhang, Yong Cheng, Shuge Dai, Mingsheng Wang*, Kaili Zhang, Yuping Wu*, Meilin Liu,* Design and understanding of dendritic mixed-metal hydroxide nanosheets@N-doped carbon nanotube array electrode for high-performance hybrid supercapacitors, Energy Storage Materials, 16: 632-645 (2019) (IF = 17.789) (Highly Cited Paper)

(19).  Zaichun Liu, Xinhai Yuan, Shuaishuai Zhang, Jing Wang*, Qinhong Huang, Nengfei Yu, Yusong Zhu, Lijun Fu, Faxing Wang*, Yuhui Chen, and Yuping Wu*, Three-dimensional ordered porous electrode materials for electrochemical energy storage, NPG Asia Materials, 11, 12 (1-21) (2019) (IF = 10.481) (Highly Cited Paper)

(20).  Weigang Wang#, Meng Wu#, Peng Han, Yu Liu, Liang He, Qinghong Huang, Peng Wang, Wensheng Yan, Jing Wang, Lijun Fu*, and Yuping Wu*, Understanding the behavior and mechanism of oxygen-deficient anatase TiO2 toward sodium storage, ACS Appl. Mater. Interf., 11(3): 3061-3069 (2019). (IF = 9.229)

(21).  Xiaojuan Zhu,‡ Zaichun Liu‡, Huanbo Wang, Runbo Zhao, Hongyu Chen, Ting Wang, Faxing Wang, Yonglan Luo,* Yuping Wu* and Xuping Sun*, Boosting electrocatalytic N2 reduction to NH3 on b-FeOOH by fluorine doping, Chem. Commun., 55, 3987-3990 (2019) (IF = 6.222) (Highly Cited Paper)

(22).  Lijun Fu, Qunting Qu, Rudolf Holze*, Veniamin V. Kondratiev, and Yuping Wu*, Composites of metal oxides and intrinsically conducting polymers as supercapacitor electrodes: The best of both worlds? J. Mater. Chem. A, 7: 14937–14970 (2019). (IF = 12.731)

(23).  Jinghua Li#, Zaichun Liu#, Yong Cheng, Bote Zhao, Shuge Dai, Hong-Hui Wu,  Kaili  Zhang,  Dong Ding, Yuping  Wu*, Meilin Liu*, Ming-Sheng Wang, Anion and cation substitution in transition-metal oxides nanosheets for high-performance hybrid supercapacitors, Nano Energy, 57: 22-33 (2019) (IF = 17.881) (Highly Cited Paper)

(24).  Xiaoxiao Shen#, Shuaishuai Zhang#, Yuping Wu,* and Yuhui Chen*, Promoting Li–O2 batteries with redox mediators, ChemSusChem, 12,104–114 (2019). (IF = 8.928)

(25).  Yingqiang Wu,# Hai Ming,# Junli Zhang,* Mengliu Li, Wandi Wahyudi, Leqiong Xie, Xiangming He, Jing Wang, Yuping Wu* and Jun Ming*, New organic complex for lithium layered oxide modification: ultrathin coating, high-voltage, and safety performances,ACS Energy Lett., 4: 656−665 (2019). (IF = 16.331)

(26).  Chunyang Li, Wenzhuo Wu, Shuaishuai Zhang, Liang He, Yusong Zhu*, Jing Wang, Lijun Fu*, Yuhui Chen, Yuping Wu*, Wei Huang, A high-voltage aqueous lithium ion capacitor with high energy density from alkaline-neutral electrolyte, J. Mater. Chem. A, 7: 4110 – 4118 (2019). (IF = 12.731) 

(27).  Chunyang Li, Wenqi Yan, Shishuo Liang, Peng Wang, Jing Wang, Lijun Fu*, Yusong Zhu, Yuhui Chen*, Yuping Wu,* and Wei Huang, Achieving high-performance prussian blue analogue cathode with ultra-stable redox reaction for ammonium ion storage, Nanoscale Horizon, 4, 991 – 998 (2019). (IF = 9.095)

(28).  Yanghang Huang, Haochen Yang, Yi Zhang*, Yamin Zhang, Yutong Wu, Mengkun Tian, Peng Chen, Robert Trout, Yao Ma, Tzuho Wu, Yuping Wu* and Nian Liu*, A safe and fast-charging lithium-ion battery anode using MXene supported Li3VO4, J. Mater. Chem. A., 7, 11250–11256 (2019). (IF = 12.731).

(29).  Dezhi Yang, Liang He, Yu Liu, Wenqi Yan, Shishuo Liang, Yusong Zhu*, Lijun Fu*, Yuhui Chen, Yuping Wu*, An acetylene black modified gel polymer electrolyte for high performance lithium-sulfur batteries, J. Mater. Chem. A, 7, 13679 – 13686 (2019). (IF = 12.731)

(30).  Shulin Zhao, Sheng Li, Tao Guo, Shuaishuai Zhang, Jing Wang, Yuping Wu*, Yuhui Chen*, Advances in Sn-based catalysts for electrochemical CO2 reduction, Nano-Micro Letters, 11, 62 (1-19) (2019). (IF = 9.043)

(31).  Yu Liu, Haodong Dai, Lu Wu, Weibin Zhou, Liang He, Weigang Wang, Wenqi Yan, Qinghong Huang, Lijun Fu*, Yuping Wu*, A large scalable and low-cost sulfur/nitrogen dual-doped hard carbon as the negative electrode material for high-performance potassium-ion batteries, Adv. Energ. Mater., 9, 1901379 (1-9) (2019). (IF = 29.368).

(32).  Peipei Li#, Zaichun Liu#, Xia Li, Tongwei Wu, Linyu Wang, Li Wang, Lei Ji, Runbo Zhao, Hong Huang, Hongyu Chen, Xiaoxue Zhang, Hongguo Zheng, Youyu Zhang, Yan Zhao, Yuping Wu*, Meiling Liu*, Xuping Sun*, Ambient electrocatalytic N2 reduction to NH3 by metal fluoride, J. Mater. Chem.A, 7, 17761–17765 (2019). (IF = 12.731) 

(33).  Yanfeng Fang#, Zaichun Liu#, Jingrui Han#, Zhaoyong Jin, Yaqian Han, Faxing Wang, Yusheng Niu, Yuping Wu,* and Yuanhong Xu*, High-performance electrocatalytic conversion of N2 to NH3 using oxygen-vacancy-rich TiO2 in situ grown on Ti3C2Tx MXene, Adv. Energy Mater., 9, 1803406 (1-9) (2019) (IF = 29.368)  (Highly Cited Paper)

(34).  Chunyang Li, Dexin Zhang, Fuxiang Ma, Tianyi Ma, Jing Wang, Yuhui Chen, Yusong Zhu,* Lijun Fu,* Yuping Wu,* and Wei Huang, A high-rate and long-life aqueous ammonium-zinc ion hybrid battery,ChemSusChem, 12, 3732–3736 (2019). (IF = 8.928)

(35).  Shishuo Liang,#, Wenqi Yan,#, Xu Wu, Yi Zhang, Yusong Zhu*, Hongwei Wang*, Yuping Wu,* Gel polymer electrolytes for lithium ion batteries: fabrication, characterization and performance, Solid State Ionics, 318: 2-18 (2018) (IF = 3.785) (Highly Cited Paper)

(36).  Feng Yu#, Zheng Chang#, Xinhai Yuan#, Faxing Wang*, Yusong Zhu, Lijun Fu, Yuhui Chen*, Hongxia Wang*, Yuping Wu* and Weishan Li, Core-shell structure ultrathin NiCo2S4@graphene as high performance positive electrode for hybrid supercapacitors, J. Mater. Chem. A, 6: 5856-5861 (2018). (IF = 12.731)

(37).  P.P. Zhang, X.N. Zhao, Z.C. Liu, F.X. Wang*, Y. Huang, H.Y. Li, Y. Li, J.H. Wang, Z.Q. Su*, G. Wei, Y.S. Zhu, L.J. Fu, and Y.P. Wu*, W. Huang, Exposed high-energy facets in ultra-dispersed sub-10 nm SnO2 nanocrystals anchored on graphene for pesudocapacitive sodium storage and high-performance quasi-solid-state sodium ion capacitors, NPG Asia Materials, 10: 429-440 (2018) (IF = 10.481)  

(38).  Xiaojuan Zhu#, Zaichun Liu#, Qin Liu, Yonglan Luo, Xifeng Shi, Abdullah M. Asiri, Yuping Wu* and Xuping Sun*, Efficient and durable N2 reduction electrocatalysis under ambient conditions: β-FeOOH nanorods as a non-noble-metal catalyst, Chem. Commun., 54, 11332-11335 (2018). (IF = 6.222) (Highly Cited Paper)

(39).  Jingrui Han#, Zaichun Liu#, Yongjun Ma, Guanwei Cui, Fengyu Xie, Faxing Wang, Yuping Wu, Shuyan Gao,*, Yuanhong Xu,*, Xuping Sun*, Ambient N2 fixation to NH3 at ambient conditions: using Nb2O5 nanofiber as a high-performance electrocatalyst, Nano Energy, 52, 264–270 (2018). (IF = 17.881) (Highly Cited Paper)

(40).  Y.F. Wang, B.W. Chen, Z. Chang, X.W. Wang, L.X. Zhang, Y.S. Zhu*, L.J. Fu,*, Y.P. Wu*, Enhancing performance in sandwich-like cobalt sulfide and carbon for quasi-solid-state hybrid electrochemical capacitors, J. Mater. Chem. A, 5, 8981 – 8988 (2017). (IF = 12.731) 

(41).  Z.C. Liu(#), R.L. Li(#), J.Z. Chen, F.X. Wang, X.W. Wu, K. Zhang, Z.A. Wang, J. Mo, X.H. Yuan, R. Holze*, and Y.P. Wu*, Theoretical investigation on suitable pore size of membranes by DFT for vanadium redox flow battery, ChemElectroChem, 4, 2184–2189 (2017) (IF = 4.59)Cover

(42).  L.L. Liu, H.P. Guo, Y.Y. Hou, J. Wang, J. Chen, H.K. Liu, J.Z. Wang* L.J. Fu*, and Y.P. Wu*, A 3D hierarchical porous Co3O4 nanotube network as an efficient cathode for rechargeable lithium-oxygen batteries, J. Mater. Chem. A, 5 (28), 14673-14681 (2017) (IF = 12.731)

(43).  F.X. Wang, # Z.C. Liu,# X.H. Yuan, C.Y. Li, Y.S. Zhu, L.J. Fu*, X.W. Wu,*, Y.P. Wu*, A quasi-solid-state Li-ion capacitor of high energy density based on Li3VO4/carbon nanofibers and electrochemically-exfoliated graphene sheets, J. Mater. Chem. A, 5, 14922 – 14929 (2017). (IF = 12.731) 

(44).  F.X. Wang#, X.W. Wu#, X.H. Yuan, Z.C. Liu, L.J. Fu*, Y.S. Zhu, Q.M. Zhou*, Y.P. Wu*, and W. Huang, Latest advances on supercapacitors from new electrode materials to novel device designs, Chem. Soc. Rev., 46, 6816 – 6854 (2017)(IF = 54.564) (Highly Cited Paper)

(45).  F.X. Wang#, Z.C. Liu#, P.P. Zhang, H.Y. Li, W.B. Sheng, T. Zhang, R. Jordan, Y.P. Wu, X.D. Zhuang* and X.L. Feng*, Dual-graphene rechargeable sodium battery, Small, 13, 1702449 (2017) (IF = 13.281)

(46).  Chun Wan#, Faxing Wang#, Zaichun Liu#, Yujuan Zhao, Yong Liu, Qin Yue, Hongwei Zhu, Yonghui Deng*, Yuping Wu*, Dongyuan Zhao*, N-doped carbon hollow microspheres for metal-free quasi-solid-state full sodium-ion capacitors, Nano Energy, 41, 674–680 (2017) (IF = 17.881)  

Note: IF2021年公布的数据。


部分教材与专著:

(1).   吴宇平*, 万春荣, 姜长印, 方世璧, 锂离子二次电池, 化学工业出版社,2002. ISBN 7-5025-4029-6

(2).   吴宇平*, 戴晓兵, 马军旗, 程预江, 《锂离子电池:应用与实践》,化学工业出版社,2004. ISBN 7-5025-5266-9

(3).   吴宇平,张汉平,吴锋,李朝晖,《聚合物锂离子电池》,化学工业出版社,2007, ISBN 978-7-5025-9568-5

(4).   吴宇平,张汉平,吴锋,张鹏,关士友,《绿色电源材料》,化学工业出版社,2008, ISBN 978-7-12202645-3

(5).  吴宇平*, 袁翔云, 董超, 段冀渊, 《锂离子电池:应用与实践》(第二版),化学工业出版社,2012, ISBN 978-7-122-12421-0

(6).   Yuping Wu*, Lithium-Ion Batteries: Fundamentals and Applications, CRC Press - Taylor & Francis, New York, 2015, ISBN 978-146-655-733-8,

(7).   Yuping Wu* (Editor), Metal oxides in Energy Technologies, Elsevier Science, Oxford, UK, October 2018, ISBN 978-0-12-811167-3 (Hard copy), ISBN 9780128104163.

(8).   Yuping Wu*, Yusong Zhu, Teunis van Ree (Editors), Introduction to New Energy Materials and Devices, Chemical Industry Press, Beijing, 2020. ISBN, 978-7-122-37184-3

(9).  Yuping Wu, Rudolf Holze, Electrochemical Energy Conversion and Storage, Wiley VCH, Germany,2021, ISBN 978-3-527-33431-5.


专利申请

2021年底授权中国、美国、日本发明专利31项,部分授权如下:
(1)“一种混合水性可充电池”,专利号:ZL201710622993.X

(2)“一种可充放电的水溶液储能器件”,专利号:ZL201910733808.3

(3)“一种基于多孔二氧化硅、氧化铝与铝粉混合物的锂电池灭火材料及应用”,专利号:ZL201910211041.8

(4)“一种功能性隔膜”,专利号:ZL201920593724.X

(5)“一种以铅为负极的无酸蓄电池”,专利号:ZL201410358835.4

荣誉 奖励

2022Corresponding Member, Saxon Academy of Sciences and Humanities (Germany)

2021Fellow of Royal Society of Chemistry (FRSC)

2019Albert Nelson Marquis Lifetime Achievement Award

2015One of the Most Influential Minds by Thomson Reuters (the current Clarivate)

2014-2018, 2020-2021Highly Cited Researchers over the World by Thomson Reuters/Clarivate

2014国家自然科学基金委杰出青年基金

2009/2004上海市科委启明星

2004复旦大学世纪之星


指导学生

2022年底毕业63名研究生,其中7人已获国家级青年人才称号。在读的博士生如下:
1、熊小松;
2、樊惟佳;

在读硕士生:4人

团队拟每年招收5-10名博士生和10-25名硕士生,热烈欢迎联系!