毛秉伟 教授

电话：（0592）2186862 （实验室）

传真：（0592）2183047

电子邮件：bwmao@xmu.edu.cn

网页地址：http://stm.xmu.edu.cn

 

 

 

个人简历：

教授（1996）, 博士生导师（1996-），厦门大学特聘教授（2012-）

复旦大学学士（1982），英国南安普顿大学博士（1987）

现任ChemElectroChem共同编委会主席、《电化学》期刊编委、中国化学会女化学工作者委员会委员。

 

详细介绍：

1982 年7月毕业于复旦大学化学系，1983年月11月教育部公派赴英国南安普敦大学化学系攻博，师从Martin Fleischmann教授，从事电化学谱学新技术研究，1987年9月获博士学位。先后在复旦大学和厦门大学化学系博士后流动站工作，1992年起成为厦门大学固体表面物理化学国家重点实验室专职研究人员，任职副教授，1996年12月晋升为教授。 1999～2009年任厦门大学化学化工学院电化学教研室主任。1997年获德中文化交流学会资助赴德国乌尔姆大学进行短期科研合作。荣获2010年厦门市“三八”红旗手称号。2012年被聘为厦门大学特聘教授。组织第六届全国扫描隧道显微学会议(2000)和第二届国际电化学会春季会议（2003）, 担任Electrochimica Acta “Electrochemistry at nanoscale - Structuring, characterization and theories”(2005) 专辑的客座编辑。曾任ChemPhysChem编委、《中国科学通报》、《电化学》等国内外期刊的编委或特邀编辑、全国扫描隧道显微学专业委员会委员；现任ChemElectroChem编委会共同主席、《电化学》编委、中国化学会女化学工作者委员会委员。

 

主要研究方向：

扫描探针显微学、离子液体电化学、能源电化学体系的表界面过程、分子电子学、电化学技术及其应用。

 

长期从事扫描探针显微学方法研究及其在界面电化学、纳米电化学、能源电化学和生命科学中的应用，重视将实验研究和仪器研制相结合，在研究方法上努力创新。开展超浓体系单晶电化学研究，深入研究室温离子液体电化学界面双电层结构细节；运用和发展STM裂结技术，探讨金属原子结量子输运与原子结上氧化还原反应的互为影响，关联单分子电荷输运与氧化还原分子组装单层的电荷转移行为；将表面电化学的概念和方法运用于锂、钠金属负极的研究和设计，并通过研究SEI膜的纳米力学特性用于评价其电化学性能。先后主持国家自然科学基金委重点项目、面上项目、国际合作项目和国家重点基础研究发展计划子课题等十余项；参与国家自然科学基金委“电化学创新研究群体”项目、重大项目和重点项目以及国家重点基础研究发展计划等项目的研究工作；与国内外同行开展合作研究。

在Nature Comm., Chem, Angew. Chem. Int. Ed.、J. Am. Chem. Soc.和 Adv. Mat. 等学术刊物上发表论文200余篇；撰写5章书的章节；多次应邀在电化学、纳米科学和表面科学相关领域的国际会议上作邀请报告和主旨报告。先后主讲本科生主干课程《物理化学》、研究生专业学位课程《电极过程动力学》、国际硕士课程《Electrode Kinetics》、研究生专业选修课《电化学研究进展》（部分）。培养研究生60余名，其中已毕业博士生24名、已毕业硕士生30名。

 

研究兴趣：

扫描探针显微学、界面电化学、纳米电化学、离子液体电化学、能源电化学基础、碱金属负极界面过程与机制

Selected publications:

1. Miangang Li^#, Shuai Liu^#, Liqiang Xie, Jiawei Yan^*, Corinne Lagrost, Shuai Wang, Guang Feng, Philippe Hapiot^*, and Bingwei Mao^*. Charge Transfer Kinetics at Ag(111) Single Crystal Electrode/Ionic Liquid Interfaces: Dependence on the Cation Alkyl Side Chain Length, ChemElectroChem 2021, 8, 983-990.

2.  Quantification of electron accumulation at grain boundaries in perovskite polycrystalline films by correlative infrared-spectroscopic nanoimaging and Kelvin probe force microscopy, Ting-Xiao Qin1, En-Ming You, Mao-Xin Zhang, Peng Zheng, Xiao-Feng Huang, Song-Yuan Ding^*, Bing-Wei Mao^* and Zhong-Qun Tian. Light: Science & Applications, 2021, 10, 84.

3.  Yu Gu, Wei-Wei Wang, Jia-Wei Yan, De-Yin Wu, Quan-Feng Dong and Bing-Wei Mao*, Surface electrochemistry approaches for understanding and creating smooth solid-electrolyte interphase and lithiophilic interfaces for lithium metal anodes, Current Opinion in Electrochemistry, 2021, 26, 100671.

4.  Xiaodong Lin, Yu Gu, Xiao-Ru Shen, Wei-Wei Wang, Yu-Hao Hong, Qihui Wu, Zhi-You Zhou, De-Yin Wu, Jeng-Kuei Chang, Ming-sen Zheng^*, Bingwei Mao^* and Quan-Feng Dong^*, An oxygen-blocking oriented multifunctional solid-electrolyte interphase as protective layer for lithium metal anode in lithium–oxygen batteries, Energy Environ. Sci., 2021, 14, 1439–1448.

5.  Wei-Wei Wang, Yu Gu, Hao Yan, Sha Li, Jun-Wu He, Hong-Yu Xu, Qi-Hui Wu, Jia-Wei Yan^* and Bing-Wei Mao^* Evaluating Solid-Electrolyte Interphases for Lithium and Lithium-Free Anodes from Nanoindentation Features, Chem, 2020, 6, 2728–2745.

6.  Yuan Fang, Songyuan Ding*, Meng Zhang, Stephan N. Steinmann, Ren Hu, Bingwei Mao*, Juan Miguel Feliu, and Zhongqun Tian, Revisiting the atomistic structures at the interface of Au(111) electrode-sulfuric acid solution, J. Am. Chem. Soc, 2020, 142,‏ 9439-9446.

7. Yu Gu, Hong-Yu Xu, Xia-Guang Zhang, Wei-Wei Wang, Jun-Wu He, Shuai Tang, Jia-Wei Yan, De-Yin Wu*, Ming-Sen Zheng, Quan-Feng Dong, Bing-Wei Mao*, Cu(100) Faceted Surface for Lithiophilicity: High-Utilization of Surface and Space of Hosts for Lithium Metal Anodes，Angew. Chem. Int. Ed., 2019, 58, 3092–3096.

8. Shuai Tang, Xia-Guang Zhang, Xue-Yang Cui, Hong-Yu Xu, De-Yin Wu, Jia-Wei Yan, Ming-Sen Zheng, a Quan-Feng Dong* and Bing-Wei Mao*, Mitigating concentration polarization for highly reversible plating/stripping electrochemistry: Li versus Na, J. Mater. Chem. A, 2019, 7, 23216-23224.

9. Shuai Tang, Yi-Yang Zhang, Xia-Guang Zhang, Jun-Tao Li, Xue-Yin Wang, Jia-Wei Yan, De-Yin Wu, Ming-Sen Zheng, Quan-Feng Dong,* and Bing-Wei Mao*, Stable Na Plating and Stripping Electrochemistry Promoted by In Situ Construction of an Alloy-Based Sodiophilic Interphase, Adv. Mater.，2019, 1807495.

10. Liang Chen, Yan-Yan Tan, Zhi-Xin Chen, Tan Wang, Shu Hu, Zi-Ang Nan, Li-Qiang Xie, Yong Hui, Jing-Xin Huang, Chao Zhan, Su-Heng Wang, Jian-Zhang Zhou, Jia-Wei Yan, Bing-Wei Mao*, and Zhongqun Tian*, Toward long-term stability: single crystal alloys of cesiumcontaining mixed cations and mixed halides perovskite，J. Am. Chem. Soc.，2019, 141, 665-1671.

11. Yu Gu, Wei-Wei Wang, Yi-Juan Li, Qi-Hui Wu, Shuai Tang, Jia-Wei Yan, Ming-Sen Zheng, De-Yin Wu, Chun-Hai Fan, Wei-Qiang Hu, Zhao-Bin Chen, Yuan Fang, Qing-Hong Zhang, Quan-Feng Dong*, Bing-Wei Mao*, Designable ultra-smooth ultra-thin solid-electrolyte interphases of three alkali metal anodes, Nature Commun., 2018, 9, 1339.

12.  Jia-Wei Yan, Zhong-Qun Tian and Bing-Wei Mao*, Molecular-level understanding of electric double layer in ionic liquids, Current Opinion in Electrochemistry, 2017, 4, 105–111.

13. Li-Qiang Xie, Liang Chen, Zi-Ang Nan, Hai-Xin Lin, Tan Wang, Dong-Ping Zhan, Jia-Wei Yan, Bing-Wei Mao*, and Zhong-Qun Tian*, Understanding the Cubic Phase Stabilization and Crystallization Kinetics in Mixed Cations and. Halides Perovskite Single Crystals. J. Am. Chem. Soc., 2017, 139, 3320-3323.

14. Li-Qiang Xie, Tai-Yang Zhang, Liang Chen, Nanjie Guo, Yu, Wang,Guo-Kun Liu, Jia-Rui Wang, Jian-Zhang Zhou, Jia-Wei Yan, Yi-Xin Zhao*, Bing-Wei Mao* and Zhong-Qun Tian, Organic–inorganic interactions of singlecrystalline organolead halide perovskites studied by Raman spectroscopy, PhysChemPhys, 2016, 18, 18112-18118.

15. Shuai Tang, Yu Gu, Jun Yi, Zhicong Zeng, Song-Yuan Ding, Jia-Wei Yan, De-Yin Wu, Bin Ren, Zhong-Qun Tian* and Bing-Wei Mao*, An electrochemical surface-enhanced Raman spectroscopic study on nanorod-structured lithium prepared by electrodeposition, J. Raman Spectrosc., 2016, 47, 1017–1023.

16. Mian-Gang Li, Li Chen, Yun-Xin Zhong, Zhao-Bin Chen, Jia-Wei Yan*, Bing-Wei Mao*, The electrochemical interface of Ag(111) in 1-ethyl-3-methylimidazolium bis(trifluoromethylsulfonyl)imide ionic liquid-Acombined in-situ scanning probe microscopy and impedance study, Electrochimica Acta, 2016, 197, 282–289.

17. Xiaoyan Hu, Chunlei Chen, Jiawei Yan*, Bingwei Mao*, Electrochemical and in-situ STM studies of Py13FSI and Py13TFSI ionic liquids on graphite and Au(111)  electrodes and Li salt influence, Journal of Power Sources, 2015, 293, 187-195.

18. Ji-Jun Li, Mei-Lin Bai, Zhao-Bin Chen, Xiao-Shun Zhou, Zhan Shi,Meng Zhang, Song-Yuan Ding* ,Shi-Min Hou*, Walther Schwarzacher*, Richard J. Nichols, and Bing-Wei Mao*, Giant Single-Molecule Anisotropic Magnetoresistance at Room Temperature, J. Am. Chem. Soc., 2015, 137, 5923-5929.

19. Yun-Xin Zhong, Jia-Wei Yan*, Mian-Gang Li, Xiao Zhang, Ding-Wen He, and Bing-Wei Mao* Resolving Fine Structures of the Electric Double Layer of Electrochemical Interfaces in Ionic Liquids with an AFM Tip Modification Strategy, J. Am. Chem. Soc., 2014, 136, 14682-14685.

20. Meng Zhang, Li-Juan Yu, Yi-Fan Huang, Jia-Wei Yan, Guo-Kun Liu, De-Yin Wu*, Zhong-Qun Tian and Bing-Wei Mao*, Extending the shell-isolated nanoparticle-enhanced Raman spectroscopy approach to interfacial ionic liquids at single crystal electrode surfaces, Chem. Commun., 2014, 50，14740-14743.

21. Zhao-Bin Chen, Z. L. Peng, Jing-HongLiang, Xiao-ShunZhou*, De-Yin Wu*, Christian Amatore, Bing-Wei Mao*, Gold atomic contact: Electron conduction in the presence of interfacial charge transfer, Electrochem. Commun., 2014, 47, 41-44.

22. Feng Liu, Kamran Khan, Jing-Hong Liang, Jia-Wei Yan, De-Yin Wu, Bing-Wei Mao,* Palle Skovhus Jensen, Jingdong Zhang,* and Jens Ulstrup, On the Hopping Efficiency of Nanoparticles in the Electron Transfer across Self-Assembled Monolayers, ChemPhysChem, 2013, 14, 952-957.

23. Zhi Qiu, Meng Zhang, De-Yin Wu, Song-Yuan Ding, Qi-Qi Zuo, Yi-Fan Huang, Wei Shen, Xiao-Dong Lin, Zhong-Qun Tian,* and Bing-Wei Mao*, Raman Spectroscopic Investigation on TiO2–N719 Dye Interfaces Using Ag@TiO2 nanoparticles and Potential Correlation Strategies ChemPhysChem, 2013, 14, 2217 – 2224 2217.

24. Xiao Zhang, Yun-Xin Zhong, Jia-Wei Yan, Yu-Zhuan Su, Meng Zhang, Bing-Wei Mao, Probing double layer structures of Au (111)-BMIPF6 ionic liquid interfaces from potential-dependent AFM force curves, Chem. Commun., 2012, 48, 582-584.

25. Yu-Zhuang Su, Jia-Wei Yan, Mian-Gang Li, Zhao-Xiong Xie, Bing-Wei Mao*, Zhong-Qun Tian, Adsorption of solvent cations on Au(111) and Au(100) in alkylimidazolium-based ionic liquids-Worm-like versus micelle-like structures, Z. Phys. Chem., 2012, 226, 979-994.

26. Xiao-Shun Zhou, Ling Liu, Philippe Fortgang, Anne-Sophie Lefevre, Anna Serra-Muns, Noureddine Raouafi, Christian Amatore*, Bing-Wei Mao*, Emmanuel Maisonhaute* and Bernd Sch€ollhorn*, Do Molecular Conductance Correlate with Electrochemical Rate Constants? Experimental Insights, J. Am. Chem. Soc., 2011, 133, 7509–7516.

27. Yong-Chun Wang, Cong-Bin Lin, Jian-Jia Su, Ying-Ming Ru, Qiao Wu, Zhao-Bin Chen, Bing-Wei Mao* and Zhao-Wu Tian, Electrochemically-driven large amplitude pH cycling for acid-base driven DNA denaturation and renaturation, Anal. Chem., 2011, 83, 4930–4935.

28. Yi-Min Wei, Yong-Chun Fu, Jia-Wei Yan, Chun-Feng Sun, Zhan Shi, Zhao-Xiong Xie, De-Yin Wu, and Bing-Wei Mao*, Growth and Shape-Ordering of Iron Nanostructures on Au Single Crystalline Electrodes in an Ionic Liquid: A Paradigm of Magnetostatic Coupling,  J. Am. Chem. Soc., 2010, 132, 8152–8157.

29. Yu-Zhuan Su, Yong-Chun Fu, Yi-Min Wei, Jia-Wei Yan, and Bing-Wei Mao*, The Electrode/Ionic Liquid Interface: Electric Double Layer and Metal Electrodeposition, ChemPhysChem, 2010, 11, 2764–2778 (Review).

30. Yu-Zhuan Su, Yong-Chun Fu, Jia-Wei Yan, Zhao-Bin Chen, and Bing-Wei Mao*, Double Layer of Au(100)/Ionic Liquid Interface and Its Stability in Imidazolium-Based Ionic Liquids. Angew. Chem. Int. Ed., 2009, 48, 5148-5151.

31. Yong-Chun Fu, Yu-Zhuan Su, De-Yin Wu, Jia-Wei Yan, Zhao-Xiong Xie and Bing-Wei Mao*, Supramolecular Aggregation of Inorganic Molecules at Au(111) Electrodes under a Strong Ionic Atmosphere, J. Am. Chem. Soc., 2009, 131, 14728–14737.

32. Yi-Min Wei, Xiao-Shun Zhou, Jin-Gang Wang, Jing Tang, Bing-Wei Mao,* and Dieter M. Kolb*, The Creation of Nanostructures on an Au(111) Electrode by Tip-Induced Iron Deposition from an Ionic Liquid, Small, 2008, 4, 1355–1358.

33. X. S. Zhou, Y. M. Wei, L. Liu, Z. B. Chen, J. Tang, B. W. Mao*，Extending the Capability of STM Break Junction for Conductance Measurement of Atomic-Size Nanowires: An Electrochemical Strategy, J. Am. Chem. Soc., 2008, 130, 3228 –13230.

34. Jin-Gang Wang, Jing Tang, Yong-Chun Fu, Yi-Min Wei, Zhao-Bin Chen, Bing-Wei Mao, STM tip-induced nanostructuring of Zn in an ionic liquid on Au(111) electrode surfaces, Electrochemistry Communications, 2007, 9, 633–638.

35. Yong-Chun Fu, Jia-Wei Yan, Yu Wang, Jin-Hua Tian, Hai-Ming Zhang, Zhao-Xiong Xie, and Bing-Wei Mao*, In Situ STM Studies on the Underpotential Deposition of Antimony on Au(111) and Au(100) in a BMIBF4 Ionic Liquid, J. Phys. Chem. C, 2007, 111, 10467-10477.

36. Long-Gang Lin, Jia-Wei Yan, Yu Wang, Yong-Chun Fu, Bing-Wei Mao*, An in situ STM study of cobalt electrodeposition on Au(111) in BMIBF4 ionic liquid, J. Exp. Nanoscience, 2006, 1, 269-278.

37. B. W. Mao，Preface, Special Issue on Electrochemistry at nanoscale - Structuring, characterization and theories - 2nd Spring Meeting of the International Society of Electrochemistry (ISE)，Electrochimica Acta, 2005, 50 (15), 2987.

38. J. H. Wu, J. W. Yan, Z. X. Xie, Q. K. Xue, B. W. Mao*, Electrochemical Growth of Three-Dimensional Nanostripe Architecture of Antimony on Cu(100), J. Phys. Chem. B, 2004， 108，2773-2776.

39. L.G. Lin, Y. Wang, J.W. Yan, Y.Z. Yuan, J. Xiang, B.W. Mao*, An In Situ STM Study on the Long-Range Surface Restructuring of Au(1 1 1) in a Non-Chloroaluminumated Ionic Liquid, Electrochem. Comm., 2003, 5, 995–999.

40. B. W. Mao*, J. Tang, R. Randler, Clustering and anisotropy in monolayer formation under potential control: Sn on Au(111)., Langmuir, 2002, 18, 5329-5332.

41. C. H. Shi, X. W. Cai, Y. A. Chen, Y. X. Chen, Z. Q. Tian, B. W. Mao*, Extending An In Situ Scanning Tunneling Microscopic Study to Rough Electrode Surfaces- ­Iodine Adsorption at Silver Electrodes, Applied Surf. Sci., 2000, 158, 11-15.

42. J．Tang, Y. A. Chen, Z. X. Xie, J. M. Wu, B. W. Mao and K.Tanaka, Electrochemically controlled preparation of gold particles on HOPG and characterization by scanning tunneling Microscopy, Chemical Journal of Chinese Universities, 1999, 20，333.

43. X. W. Cai, J.S.Gao, Z. X. Xie, Y. Xie, Z.Q. Tian and B. W. Mao*, Nanomodification of Polypyrrole and polyaniline on Highly Oriented Pyrolytic Graphite Electrodes by Atomic Force Microscopy, Langmuire, 1998, 14, 2508-2514.

44. X. W. Cai, Z. X. Xie, X. D. Zhou, B. W. Mao*, Scanning Tunneling Microscopic Studies of Rough Au Surfaces with Atomic Resolution, Electrochemistry, 1997, 3, 21-25.

45. B.W. Mao*, L.H. Xiong and X. W. Cai, Experimental strategies for continuous measurements of I-t transients of a silver single nucleus on carbon microelectrodes, J. Electroanal. Chem., 1996, 416, 145-150.

46. Simultaneous STM and Raman measurements on electrochemical interfaces. Z. Q. Tian , W. H. Li. , B. Ren , B. W. Mao, J. G. Chen , J. Q. Mu and X. D. Zhuo , J. Electroanal. Chem., 1996， 401, 247-251.

47. B.W. Mao*, J. Q. Mu, X. D. Zhuo, Z. D. Feng, E. R. Yan , G. B. Pan, Z. X. Xie,  Scanning Electrochemical Microscopy - Development of instrumentation utilizing bimorphpiezo elements,  Chin. J. of Chem., 1995, 2, 105-111.

48. B. W. Mao, J. H. Ye , X. D. Zhuo , J. Q. Mu , Z .D. Fen and Z. W. Tian*, A new method of STM tip fabrication for in-situ electrochemical studies. Ultramicroscopy, 1992, 42-44, 464-467.

49. Z. W. Tian , Z. H. Lin  and B. W. Mao, Advanced Electrochemistry and Electroanalytical Chemisty in China, Denki Kagaeu , 1991, 59, 637 (Eng)

50. M. Fleischmann and B. W. Mao, In-situ X-ray diffraction measurements of the surface structure of Pt in the presence of weakly adsorbed H, .J. Electroanal. Chem., 1988, 247, 311.