王梅

大連理工大學化工學院教授,博士生導師

王梅,女,畢業於大連化學物理研究所,博士,大連理工大學教授、博士生導師、碩士生導師。

人物經歷


教育經歷

1985.9-1989.4 大連化學物理研究所金屬有機化學博士
1982.9-1985.6 大連化學物理研究所金屬有機化學碩士
1978.9-1982.6 吉林大學有機化學學士

工作經歷

1992.9-1994.6 大連化學物理研究所
1994.7至今 大連理工大學
1976.6-1992.8 海軍403醫院
1972.12-1976.5 海軍151部隊

學術成果


論文成果

Zhao, Yawei,Sun, Licheng,Shen, Junyu,Yu, Ze,Hu, Maowei,Liu, Chong,Fan, Jiandong,Han, Hongxian,Hagfeldt, Anders,Wang, Mei.Fine-tuning the coordination atoms of copper redox mediators: an effective strategy for boosting the photovoltage of dye-sensitized solar cells[J],JOURNAL OF MATERIALS CHEMISTRY A,2019,7(20):12808-12814
Cheng, Minglun,Yu, Yang,Zhou, Xin,Luo, Yi,Wang, Mei.Chemical Versatility of [FeFe]-Hydrogenase Models: Distinctive Activity of [mu-C6H4-1,2-(kappa(2)-S)(2)][Fe-2(CO)(6)] for Electrocatalytic CO2 Reduction[J],ACS CATALYSIS,2019,9(1):768-774
Hu, Maowei,Shen, Junyu,Yu, Ze,Liao, Rong-Zhen,Gurzadyan, Gagik G.,Yang, Xichuan,Hagfeldt, Anders,Wang, Mei,Sun, Licheng.Efficient and Stable Dye-Sensitized Solar Cells Based on a Tetradentate Copper(II/I) Redox Mediator[J],ACS APPLIED MATERIALS & INTERFACES,2018,10(36):30409-30416
Shen, Junyu,Wang, Mei,Zhao, Liang,Zhang, Peili,Jiang, Jian,Liu, Jinxuan.Amorphous Ni(Fe)OxHy-coated nanocone arrays self-supported on stainless steel mesh as a promising oxygen-evolving anode for large scale water splitting[J],JOURNAL OF POWER SOURCES,2018,389:160-168
Shen, Junyu,Wang, Mei,Zhao, Liang,Jiang, Jian,Liu, Hong,Liu, Jinxuan.Self-Supported Stainless Steel Nanocone Array Coated with a Layer of Ni-Fe Oxides/(Oxy)hydroxides as a Highly Active and Robust Electrode for Water Oxidation.[J],ACS applied materials & interfaces,2018,10(10):8786-8796
沈駿宇,王梅,何天浩,蔣健,胡茂偉.Influence of the backbone of N5-pentadentate ligands on the catalytic performance of Ni(II) complexes for electrochemical water oxidation in neutral aqueous solutions[J],Chem. Commun.,2018,54:9019-9022

著作成果

Organic Chemistry Experiments (有機化學實驗)
Applied Homogeneous Catalysis with Organometallic Compounds
Organic Chemistry

科研項目

半導體材料/分子催化劑複合構建高效、穩定的光電化學分解水產氫、產氧器件, 國家自然科學基金項目, 2016/08/17, 進行
高效光解水產氫非貴金屬分子催化體系及光電化學器件的研究, 國家自然科學基金項目, 2013/09/25-2017/12/31, 完成
基於非貴金屬分子催化劑的產氫光電化學器件的研究, 主管部門科技項目, 2013/10/28, 進行
分子模擬酶高效人工光合成體系的組裝, 國家“973”項目 , 2014/01/01, 完成
光碟機動分解水制氫分子器件的研究, 國家自然科學基金項目, 2011/09/25-2016/12/31, 完成

研究領域


1. 光電催化
2. 金屬有機化學
3. 生物無機化學

研究方向


1. 水裂解制氫光、電催化劑及器件研究
2. 氫化酶活性中心化學模擬

著作和論文


近五年發表論文目錄
1. Synthesis, protonation and electrochemical properties of trinuclear NiFe2 complexes Fe2(CO)6(μ3-S)2[Ni(Ph2PCH2)2NR] (R = nBu, Ph) with an internal pendant nitrogen base as a proton relay,Lele Duan, Mei Wang*, Ping Li, Fujun Wang, Ning Wang, Licheng Sun,Inorg Chim. Acta, 2009, 362, 372-376.
2. Structures, protonation, and electrochemical properties of diiron dithiolate complexes containing pyridyl-phosphine ligands,Ping Li, Mei Wang,* Lin Chen, Jihong Liu, Zhenbo Zhao, Licheng Sun,Dalton Trans., 2009, 1919–1926.
3. Protophilicity, electrochemical property, and desulfurization of diiron dithiolate complexes containing a functionalized C2 bridge with two vicinal basic sites,Ting-Ting Zhang, Mei Wang,* Ning Wang, Ping Li, Zheng-Yi Liu, Li-Cheng Sun,Polyhedron, 2009, 28, 1138–1144.
4. Synthesis and characterization of carboxy-functionalized diiron model complexes of [FeFe]-hydrogenases: Decarboxylation of Ph2PCH2COOH promoted by a diiron azadithiolate complex,Zhenbo Zhao, Mei Wang,* Weibing Dong, Ping Li, Ze Yu, Licheng Sun,J. Organomet. Chem., 2009, 15, 2309–2314.
5. Photochemical hydrogen production catalyzed by polypyridyl ruthenium-cobaloxime heterobinuclear complexes with different bridges,Cheng Li, Mei Wang,* Jingxi Pan, Pan Zhang, Rong Zhang, Licheng Sun,J. Organomet. Chem., 2009, 694, 2814–2819.
6. Light-driven hydrogen production catalysed by transition metal complexes in homogeneous systems
Mei Wang,* Yong Na, Mikhail Gorlov, Licheng Sun* Dalton Trans., 2009, 6458–6467.
7. Visible light driven H2 production in molecular systems employing colloidal MoS2 nanoparticles as catalyst Xu Zong, Yong Na, Fuyu Wen, Guijun Ma, Jinhui Yang, Donge Wang, Yi Ma, Mei Wang, Licheng Sun, Can Li Chem. Commun., 2009, 4536–4538.
8. Asymmetric oxidation of sulfides with hydrogen peroxide catalyzed by a vanadium complex of a new chiral NOO-ligand Haibin Liu, Mei Wang,* Yu Wang, Ying Wang, Hui Sun, Licheng Sun Catal. Commun., 2009, 11, 294–297.
9. Preparation, Facile Deprotonation, and Rapid H/D Exchange of the μ-Hydride Diiron Model Complexes of the [FeFe]-Hydrogenase Containing a Pendant Amine in a Chelating Diphosphine Ligand Ning Wang, Mei Wang,* Jihong Liu, Kun Jin, Lin Chen, Licheng Sun Inorg. Chem., 2009, 48, 11551–11558.
10. Homogeneous photocatalytic production of hydrogen from water by a bioinspired [Fe2S2] catalyst with high turnover numbers Pan Zhang, Mei Wang,* Yong Na, Xueqiang Li, Yi Jiang, Licheng Sun
Dalton Trans., 2010, 39, 1204–1206.
11. Visible Light-Driven Water Oxidation by a Molecular Ruthenium Catalyst in Homogeneous System Lele Duan, Yunhua Xu, Pan Zhang, Mei Wang, Licheng Sun Inorg. Chem., 2010, 49, 209–215.
12. Preparation and structures of enantiomeric dinuclear zirconium and hafnium complexes containing two homochiral N atoms, and their catalytic property for polymerization of rac-lactide Minggang Hu, Mei Wang,* Hongjun Zhu, Lu Zhang, Hui Zhang, Licheng Sun Dalton Trans., 2010, 39, 4440–4446.
13. Synthesis of Tri- and Disalisylaldehyde and Their Chiral Schiff Base Compounds Hai-Bin Liu, Mei Wang,* Ying Wang, Lin Wang, Li-Cheng Sun Synth. Commun., 2010, 40, 1074–1081.
14. Hydrogen Production by Noble-Metal-Free Molecular Catalysts and Related Nanomaterials
Mei Wang,* Licheng Sun ChemSusChem, 2010, 3(5), 551-554.
15. Preparation and structure of an enantiomeric water-bridged dinuclear indium complex containing two homochiral N atoms and its performance as an initiator in polymerization of rac-lactide Minggang Hu, Mei Wang,* Peili Zhang, Lin Wang, Fangjun Zhu, Licheng Sun Inorg. Chem. Commun. 2010, 13, 968–971.
16. Highly enantioselective sulfoxidation with vanadium catalysts of Schiff bases derived from bromo- and iodo-functionalized hydroxynaphthaldehydes Ying Wang, Mei Wang,* Yu Wang, Xiuna Wang, Lin Wang, Licheng Sun J. Catal., 2010, 273, 177–181.
17. Photocatalytic Hydrogen Production from Water by Noble-Metal-Free Molecular Catalyst Systems Containing Rose Bengal and the Cobaloximes of BFx-Bridged Oxime Ligands,Pan Zhang, Mei Wang,* Jingfeng Dong, Xueqiang Li, Feng Wang, Lizhu Wu, Licheng Sun,J. Phys. Chem. C, 2010, 114, 15868–15874.
18. Photochemical H2 production with noble-metal-free molecular devices comprising a porphyrin photosensitizer and a cobaloxime catalystw,Pan Zhang, Mei Wang,* Caixia Li, Xueqiang Li, Jingfeng Dong, Licheng Sun,Chem. Commun., 2010, 46, 8806–8808.
19. Synthesis of New Chiral Schiff Bases Containing Bromo- and Iodo-Functionalized Hydroxynaphthalene Framework,Ying Wang, Mei Wang,* Yu Wang, Yuee Chen, Licheng Sun,Synth. Commun. 2011, 41(9), 1381–1393.
20. Assignment of the absolute con?guration of dinuclear zirconium complexes containing two homochiral N atoms using TDDFT calculations of ECD,Yanling Si, Guochun Yang,* Minggang Hu, Mei Wang*,Chem. Phys. Lett. 2011, 502, 266–270.
21. Asymmetric oxidation of sulfides with H2O2 catalyzed by titanium complexes of Schiff bases bearing a dicumenyl salicylidenyl unit,Ying Wang, Mei Wang*, Lin Wang, Yu Wang, Xiuna Wang, Licheng Sun,Appl. Organometal. Chem. 2011, 25, 325–330.
22. Promoting Effect of Electrostatic Interaction between a Cobalt Catalyst and a Xanthene Dye on Visible-Light-Driven Electron Transfer and Hydrogen Production,Jingfeng Dong, Mei Wang,* Pan Zhang, Songqiu Yang, Jianyong Liu, Xueqiang Li, Licheng Sun,J. Phys. Chem. C 2011, 115, 15089–15096
23. Approaches to efficient molecular catalyst systems for photochemical H2 production using [FeFe]-hydrogenase active site mimics,Mei Wang*, Lin Chen, Xueqiang Li, Licheng Sun,Dalton Trans. 2011, 40(48), 12793–12800.
24. Visible light driven hydrogen production from a photo-active cathode based on molecular catalysts and organic dye-sensitized p-type nanostructured NiO,Lin Li, Lele Duan, Fuyu Wen, Can Li, Mei Wang, Anders Hagfeldt, Licheng Sun,Chem. Commun. 2012, 48, 988-990.
25. Phosphine coordination to a cobalt diimine?dioxime catalyst increases stability during light-driven H2 production,Pan Zhang, Pierre-Andre? Jacques, Murielle Chavarot-Kerlidou,* Mei Wang,* Licheng Sun, Marc Fontecave, Vincent Artero,Inorg. Chem., 2012, 51, 2115–2120.
26. Polymerization of rac-lactide catalyzed by group 4 metal complexes containing chiral N atoms,Minggang Hu, Mei Wang*, Peili Zhang, Kun Jin, Yuee Chen, Licheng Sun,Polym. Bull., 2012, 68, 1789–1799.
27. Photocatalytic water reduction and mechanism study on homogeneous systems comprising bioinspired diiron catalysts and organic dyes,Xueqiang Li, Mei Wang,* Lin Chen, Xiuna Wang, Jingfeng Dong, Licheng Sun,ChemSusChem, 2012, 5, 913–919.
28. Recent progresses in electrochemical hydrogen production with earth-abundant metal complexes as catalysts,Mei Wang,* Lin Chen, Licheng Sun,Energy Environ. Sci., 2012, 5(5), 6763–6778.
29. Pendant Amine Bases Speed up Proton Transfers to Metals by Splitting the Barriers,Yin Wang, Mei Wang, Licheng Sun, Marten Ahlquist,Chem. Commun. 2012, 48, 4450–4452.
30. Photochemical hydrogen production with molecular devices comprising a zinc porphyrin and a cobaloxime catalystPan Zhang, Mei Wang,* Xueqiang Li, Hongguang Cui, Jingfeng Dong Licheng Sun,Sci. Chem. China, 2012, 55(7), 1274–1282.
31. Photocatalytic H2 production in aqueous solution with host-guest inclusions formed by insertion of an FeFe-hydrogenase mimic and an organic dye into cyclodextrins,Xueqiang Li, Mei Wang,* Dehua Zheng, Kai Han, Jingfeng Dong, Licheng Sun,Energy Environ. Sci., 2012, 5(8), 8220–8224.
32. Multielectron Transfer Templates via Consecutive Two-Electron Transformations: Iron-Sulfur Complexes Relevant to Biological Enzymes,Lin Chen, Mei Wang,* Frédéric Gloaguen, Dehua Zheng, Peili Zhang, Licheng Sun*,Chem. Eur. J., 2012, 18, 13968–13973.
33. Simple Nickel-Based Catalyst Systems Combined with g-C3N4 for Stable Photocatalytic Hydrogen Production in Water,Jingfeng Dong, Mei Wang,* Xueqiang Li, Lin Chen, Yu He, Licheng Sun,ChemSusChem, 2012, 5(11), 2133–2138.
34. Tetranuclear Iron Complexes Bearing Benzenetetrathiolate Bridges as Four,Electron Transformation Templates and their Electrocatalytic Properties for Proton,Reduction,Lin Chen, Mei Wang,* Frédéric Gloaguen, Dehua Zheng, Peili Zhang, Licheng Sun,Inorg. Chem., 2013, 52, 1798–1806.
35. Reactions of [FeFe]-hydrogenase models involving formation of hydrides related toproton reduction and hydrogen oxidation,Ning Wang, Mei Wang,* Lin Chen, Licheng Sun,Dalton Trans., 2013, 42, 12059–12071.
36. Electrocatalytic hydrogen evolution from neutral water by molecular cobalttripyridine-diamine complexes,Peili Zhang, Mei Wang,* Frederic Gloaguen, Lin Chen, Fran?ois Quentel LichengSun,Chem. Commun., 2013, 49, 9455–9457.
37. Catalytic Activation of H2 under Mild Conditions by a [FeFe]-Hydrogenase Model,via Active μ-Hydride Species,Ning Wang, Mei Wang,* Ying Wang, Dehua Zheng, Hongxian Han, M?rten S. G.,Ahlquist, Licheng SunJ. Am. Chem. Soc., 2013, 135 (37), 13688–13691.
38. Access to Indenones by Rhodium(III)-Catalyzed C–H Annulation of Arylnitrones,with Internal Alkynes,Zisong Qi, Mei Wang, Xingwei Li,Org. Lett., 2013, 15, 5440–5443.
39. A super-efficient cobalt catalyst for electrochemical hydrogen production from,neutral water with 80 mV overpotential,Lin Chen, Mei Wang,* Kai Han, Peili Zhang, Frederic Gloaguen, Licheng Sun,Energy Environ. Sci., 2014, 7, 329–334.
40. Redox Reactions of [FeFe]-Hydrogenase Models Containing an Internal Amine and,a Pendant Phosphine,Dehua Zheng, Mei Wang,* Lin Chen, Ning Wang, Licheng SunInorg. Chem., 2014, 53, 1555–1561.
41. The influence of S-to-S bridge in diiron dithiolate models on the oxidationreaction: A mimic of the Hoxair state of [FeFe]-hydrogenasesDehua Zheng, Mei Wang,* Lin Chen, Ning Wang, Minglun Cheng, Licheng SunChem. Commun., 2014, 50, 9255–9258
42. A new nickel complex with internal bases as efficient molecular catalyst for
photochemical H2 production Yong Yang, Mei Wang,* Liqin Xue, Fengbo Zhang, Lin Chen, M?rten S. G.
Ahlquist, Licheng Sun ChemSusChem, 2014, 7, 2889–2897.
43. Rh(iii)-Catalyzed synthesis of sultones through C-H activation directed by a sulfonic
acid group Zisong Qi, Mei Wang, Xinwei Li Chem. Commun., 2014, 50, 9776–9778.
44. Highly efficient and robust molecular nickel catalysts for electrochemical hydrogen production from neutral wCoordater Peili Zhang, Mei Wang,* Yong Yang, Dehua Zheng, Kai Han, Licheng Sun Chem. Commun., 2014, 50, 14153–14156.
45. A Molecular Copper Catalyst for Electrochemical Water Reduction with a Hydrogen Generation Rate Constant over 10000 s?1 in Aqueous Solutions Peili Zhang, Mei Wang,* Yong Yang, Tianyi Yao, Licheng Sun Angew. Chem. Int. Ed., 2014, 53, 13803–13807 (Hot paper).
46. Intramolecular Iron-Mediated C?H Bond Heterolysis with an Assist of Pendant Base in a [FeFe]-Hydrogenase Model Dehua Zheng, Ning Wang, Mei Wang,* Shengda Ding, Chengbing Ma, Marcetta Y. Darensbourg, Michael B. Hall,* Licheng SunJ. Am. Chem. Soc., 2014, 136, 16817–16823 (Spotlight Paper and Cover Paper).
47. Integration of organometallic complexes with semiconductors and other nanomaterials for photocatalytic H2 production Mei Wang*, Kai Han, Shuai Zhang, Licheng Sun Coord. Chem. Rev., 2015, 287, 1–14.
48. Photochemical hydrogen production from water catalyzed by CdTe quantum dots/molecular cobalt catalyst hybrid systems Kai Han, Mei Wang,* Shuai Zhang, Suli Wu, Yong Yang, Licheng Sun
Chem. Commun., 2015, 51, 7008—7011.
49. The mechanism of hydrogen evolution in Cu(bztpen)-catalysed water reduction: a
DFT study Rong-Zhen Liao,* Mei Wang, Licheng Sun, Per E. M. Siegbahn* Dalton Trans., 2015, 44, 9736–9739.
工作成果(獎勵、專利等)
1. One of the top 1% of authors, highly cited in the Royal Society of Chemistry journals in 2014, awarded by Royal Society of Chemistry, 2015
2. The title of “TUM Ambassador”, awarded by the Technische Universitaet Muenchen, Germany, 2015
在讀學生人數
碩士生6人, 博士生6人
畢業學生人數
碩士畢業17人, 博士畢業21人