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温鸣
发表时间:2016-07-18 阅读次数:5496次

温鸣 教授

 

 

温鸣,博士,教授,博士生导师

同济大学化学科学与工程学院

联系电话

+021-65982653-8544

办公地址

化学馆544室

E-mail

m_wen@tongji.edu.cn

 

 

个人介绍

 

 

        2002年6月于日本Kinki University获博士学位,同年回国任同济大学副教授,2009年晋升教授;2004年入选同济大学优秀青年教师,2012年开始担任中国功能材料学会理事,2011年和2015年分别赴日本东北大学和德国柏林洪堡大学高访学术交流。主要承担“普通化学”、“现代配位化学”、“化学与社会”、“固体无机化学”等本科生和硕士研究生课程的教学任务。参加了《普通化学》、《普通化学实验》和国家“十一五” 教材《化学与社会》的编写。

 

        从事纳米化学和纳米合金催化材料等方面的科研工作。研究高效催化纳米合金的结构设计与可控制备,并将所构建的新型纳米合金催化材料应用于发展清洁能源和保护环境。特别是功能多级结构纳米合金的可控制备。针对当今化学储氢物质储量高却难以释放的瓶颈问题,利用纳米合金催化新路线,对硼烷和水合肼等系列高能化学储氢物质实现娥常温常压下的可控高效快速催化裂解制氢,突破了具有超低活化能系列多级结构纳米合金的构筑。近期,在新型能源锂/钠离子电池电极材料的研究方面也有了突破,作为通讯联系人或第一作者在Advanced Functional Materials, Chemical Communications, Chemistry- A European Journal, Journal of Materials Chemistry, Inorganic Chemistry, The Journal of Physical Chemistry C等国际重要学术期刊上面发表了近70篇有影响力的SCI研究论文;授权发明专利二十多项;2013年“无机纳米结构/材料的控制合成与器件组装及其性能研究”成果获上海市自然科学三等奖(R3)。作为项目负责人承担了国家973项目子课题、国家自然科学基金面上及重大培育项目、上海市科委基础研究重点科技项目和上海市教委科研创新重点项目等十余项国家与省部级重要研究课题。

 

 

研究领域:纳米化学、纳米催化材料、能源与环境材料

 

主要研究方向
 

(1)纳米合金催化材料的设计与构筑
 

(2)新型Li、Na离子电池研究
 

(3)CO2选择性催化转化
 

 

近年承担的主要科研项目
 

(1)主持973项目子课题“金属与金属件间化合物纳米晶的可控合成与催化反应”(No. 2011CB932404)
 

(2)主持国家自然科学基金重大研究计划的培育项目“催化释氢导向的多元合金/镶嵌结构高活性晶面选择性合成及其机理研究”(No. 91222103)
 

(3)主持国家自然科学基金(面上项目)“多级复合纳米金属/合金异质织网结构的构筑与性能研究”(No. 51271132)
 

(4)主持国家自然科学基金(面上项目)“贵金属线穿引铁系合金的纳米链结的制备及其性能研究”(No. 21171130)
 

(5)主持国家自然科学基金(面上项目)“多元非晶态合金纳米管的软硬复合模板诱导合成及其性质研究”(No. 20771085)
 

(6)主持上海市“科技创新行动计划”基础研究重点科技项目 “生物燃料电池中新型网孔结构非晶态合金酶电极的制备及其性能研究”(No. 09JC1414100)
 

(7)主持上海市教委科研创新重点项目“性能可控多元非晶态合金纳米管的组装合成研究” (No. 10ZZ21)
 

(8)主持留学回国人员基金项目“新型结构的Ag(I)的配位化合物的合成及其结构稳定性研究”
 

(9)主持同济大学优秀青年教师基金项目“Co,Ni-基非晶功能磁性合金纳米阵列结构及其诱导性能的研究”
 

 

近年发表的部分研究论文:

 

(34) Hao Fang, Yuting Chen, Ming Wen*, Hanxing Chen, and Qingsheng Wu, 3D radial SnNi nanostructure with SnNiPt patches: towards enhanced electrocatalysis performance, Nanoresearch, in press, DOI: 10.1007/s12274-017-1745-6. 

 

(33) Dandan Wu, Ming Wen*, Chen Gu, Qingsheng Wu, 2D-structured NiFe/CeO2 Basic-Sites Enhanced Catalyst via In-Situ Topotactic Reduction for selectively catalyzing the H2 generation from N2H4·H2O, ACS Applied Materials &Interface, 2017, 9 (19), 16103–16108.

 

(32) Dandan Wu, Yanqiao Zhang, Ming Wen,* Hao Fang, Qingsheng Wu, Fe3O4/FeNi Embedded Nanostructure and Its Kinetic Law for Selective Catalytic Reduction of p-nitrophenyl compounds, Inorganic Chemistry, 2017, 9(56), 5152-5157.

 

(31) Qingnan Wu, Chenxiang Wang, Ming Wen,* Qingsheng Wu, Shipei Chen, Jiahao Wen, Meng Zhu, and Yansen Wang, A Tubular Sandwich-structure of CNT@Ni@Ni2(CO3)(OH)2 with Superior Electrochemical Performances for Hybrid Supercapacitor, The Journal of Physical Chemistry C, 2017, 121 (18), 9719-9728.
 

(30) Dandan Wu, Ming Wen,* Xijian Lin, Qingsheng Wu, Chen Gu and Hanxing Chen, NiCo/NiO-Co3O4 Ultrathin Layered Catalyst with Strong Basic Sites for Highly Performance H2 Generation from Hydrous Hydrazine, Journal of Materials Chemistry A., 2016, 4, 6595-6602.
 

(29) Hao Fang, Ming Wen,* Hanxing Chen, Qingsheng Wu, Graphene Stabilized Ultra-small-sized CuNi Nanocomposite with High Activity and Recyclability toward Catalysing the Reduction of Aromatic Nitro-Compounds, Nanoscale, 2016,8, 536-542.
 

(28) Hanxing Chen, Teng Tu, Ming Wen*, and Qingsheng Wu*, Assembly Synthesis of Cu2O-on-Cu Nanowires with Visible-light Enhanced Photocatalytic Activity, Dalton Transactions, 2015, 44, 15645-15652.
 

(27) Zaidi Huang, Ming Wen*, Dandan Wu, Qingsheng Wu, A Special Ag/AgCl Network-nanostructure for Selective Catalytic Degradation of Refractory Chlorophenol Contaminants, RSC Advance, 2015, 2015, 5, 12261-12267.

 

(26) Hanxing Chen, Ming Wen*, Zaidi Huang, Qingsheng Wu, Jiali Liu, Teng Tu, Construction of Cu@ZnO Nanobrushes Based on Cu Nanowires and Their High-performance Selectivity-degradation for Polycyclic Aromatic Hydrocarbons, Journal of Materials Chemistry, 2015, 3(2), 600-607.

 

(25) Ming Wen*, Bo Zhou, Hao Fang, Qingsheng Wu, Shipei Chen, A Novel Phase-structural High-efficiency Anode-catalyst for Methanol Fuel Cells: α-(NiCu)3Pd Nanoalloy, The Journal of Physical Chemistry C, 2014, 118(46), 26713-26720.
 

(24)Linyi Zhou, Ming Wen*, Qingsheng Wu, Dandan Wu,Fabrication and Catalytic Activity of FeNi@Ni Nanocables for the Reduction of p-nitrophenol, Dalton Transactions, 2014, 43(21), 7924-7929.

 

(23) Yange Wu, Ming Wen*, Hao Fang, Qingsheng Wu, Ni/Graphene Nanostructures and Its Electron-enhanced Catalysis Hydrogenation Reaction for Nitrophenol,The Journal of Physical Chemistry C, 2014, 118(12), 6307-6313.
 

(22) Jiali Liu, Ming Wen(并列第一), Hanxing Chen, Qing-Sheng Wu*, and Jing Li, Assembly of TiO2-on-Cu2O Nanocubes with Narrow–band Cu2O Induced Visible-light Enhanced Photocatalytic Activity, ChemPlusChem, 2014, 79(2), 298-303.
 

(21) Li-Zu Wang, Ming Wen*, Pin-Shi Yuan, Linyi Zhou, and Qing-Sheng Wu*, One-step Synthesis and High-efficiency Decoloration of Multi-functional Porous-C/Fe3O4 Nanospheres Using Sandwich Structural Precursor Acting as Three Roles, ChemPlusChem, 2013, 78(8), 816-822.
 

(20) Bo Zhou, Ming Wen*, Qingsheng Wu, C-isolated Ag-C-Co Sandwich Sphere-nanostructures and Their Highly Activity Catalysis Induced by Surface Plasmon Resonance, Nanoscale, 2013, 5, 8602-8608.
 

(18) Ming Wen*,Yuzhen Sun, Xiaomeng Li, Qingsheng Wu, Qingnan Wu, Chenxiang Wang, Ru-capped/FeCo Nanoflowers with High Catalytic Efficiency toward Hydrolytic Dehydrogenation, Journal of Power Sources, 2013, 243, 299-305.
 

(17) Jin Peng, Ming Wen*, Chenxiang Wang, Qingsheng Wu, Yuzhen Sun, Microwave-assisted synthesis and high dechlorination activity of magnetic FeNi broom-like nanostructures, Dalton Transactions, 2013, 42(24), 8667-8673.
 

(16) Yuzhen Sun, Ming Wen*, Qingsheng Wu, Qingnan Wu, Controllable Assembly and Dehydrogenation Catalysis Activity of Urchin-like FeNi-Ru(tips) Amorphous Alloy Hierarchical Nanostructures, ChemPlusChem, 2013, 78(4), 375-381.
 

(15) Ming Wen*, Shiqing Zhou, Qingsheng Wu, Juyang Zhang, Qingnan Wu, Chenxiang Wang, and Yuzhen Sun, Construction of NiCo-Pt Nanopolyhedrons Inlay-structures and Their Highly Efficient Catalysis Hydrolytic Dehydrogenation toward Ammonia Borane, Journal of Power Sources, 232 (2013) 86-92. 
 

(14) Shiqing Zhou, Ming Wen*, Na Wang, Qingsheng Wu*, Qingnan Wu, and LiYa Cheng, Highly Active NiCo Alloy Hexagonal Nanoplates with Crystal Plane Selective Dehydrogenation and Visible-light Photocatalysis, Journal of Materials Chemistry, 2012, 22 (33), 16858-16864.
 

(13) Ming Wen*, Baolei Sun, Bo Zhou, Qingsheng Wu*, Jin Peng, Controllable Assemblly of Ag/C/Ni Magnetic Nanocables and Its Low Activation Energy Dehydrogenation Catalysis, Journal of Materials Chemistry,2012, 22, 11988-11993.
 

(12) Baolei Sun, Ming Wen*, Qingsheng Wu, Jin Peng, Oriented Growth & Assembly of Ag@C@Co Pentagonalprism Nanocables and Their Highly Activity  Selected Catalysis along Edges for Dehydrogenation; Advanced Functional Materials, 2012, 2012, 22,2860-2866.
 

(11) Ming WEN*, MingZhu Cheng, Shiqing Zhou, Qingsheng Wu,Na Wang, Linyi Zhou, Synthesis of Reusable NiCo@Pt Nanoalloys From Icosahedron to Spheres By Element Lithography and Their Synergistic Photocatalysis for Nano-ZnO Toward Dye Wastewater Degradation, The Journal of Physical Chemistry C, 2012,116, 11702-11708.
 

(10) MingZhu Cheng, Ming Wen*, Shiqing Zhou, Qingsheng Wu, Na Wang, LinYi Zhou, Solvothermal Synthesis of NiCo Alloy Icosahedral Nanocrystals, Inorganic Chemistry, 2012, 51 (3), 1495–1500.
 

(9) Ming Wen*, Fan Zhang, Mingzhu Cheng, Qingsheng Wu, Baolei Sun, and Yuzhen Sun, Inducing Growth of FeNi-Pt Match-like Magnetic Nanoheterostructures on Pt Nanotips and Dechlorination of Hydrochloricether, ChemPhysChem, 2011, 12, 3573-3577.
 

(8) Ming Wen*, Xiangguo Meng, Baolei Sun, Qingsheng Wu,and Xiaolan Chai, Length-controllable Catalyzing-synthesis and Length-corresponding Properties of FeCo/Pt Nanorods, Inorganic Chemistry, 2011, 50(19), 9393-9399.
 

(7) Yijun Chen, Ming Wen(并列第一) and Qingsheng Wu*, Stepwise Blossoming of BiOBr Nanoplate-assembled Microflowers and Their Visible-light Photocatalytic Activities, CrystEngComm, 2011, 13, 3035- 3039.
 

(6) Feng Zhang, Ming Wen(并列第一), Mingzhu Cheng, Di Liu, Anwei Zhu, Yang Tian*,Pt-on-NiCo Nanostructures with Facilitated Electrocatalytic Activities for Sensitive Determination of Intracellular Thiols with Long-Term Stability,Chemistry- A European Journal, 2010, 16(36), 11115-11120.
 

(5) Fan Zhang, Ming Wen*, Mingzhu Cheng, Qingsheng Wu*, Xiangguo Meng, Inducing Nanolayers-assembly of FePtDy 1D Superstructure and Its Induced Visible Light Photocatalysis Effect for TiO2, Journal of Materials Chemistry, 2010, 20, 7661 - 7668.
 

(4) Ming Wen*, Dan Yang, Qing-sheng Wu, Ru-ping Lu, Yuan-zheng Zhu and Fan Zhang, Inducing Synthesis of Amorphous EuFePt Nanorods and Their Comprehensive Enhancement of Magnetism, Thermostability and Photocatalysis, Chemical Communications, 2010, 46, 219-221.
 

(3) Ming Wen, Haiqing Liu, Feng Zhang, Yuanzheng Zhu, Di Liu, Yang Tian*,    Qingsheng Wu, Amorphous FeNiPt nanoparticles with tunable length for electrocatalysis and electrochemical determination of thiols,Chemical Communications, 2009, 30, 4530-4531.
 

(2) Ming Wen*, YaFen Wang, Fan Zhang, Qingsheng Wu, Nanostructures of Ni and NiCo Amorphous Alloys Synthesized by a Double Composite Template Approach, The Journal of Physical Chemistry C, 2009, 113(15), 5960-5966.
 

(1) Ming Wen*, Yuan-zheng Zhu, Qing-sheng Wu, Fan Zhang, Tao Zhang, Composition-depended Assembly and Magnetic Specificity of (Fe1-xNix)0.5Pt0.5 Amorphous Nanothreads Through Substitution of Ni for Fe in FePt System, The Journal of Physical Chemistry C, 2009, 113(46), 19883-19890.

 

 

 

 

        欢迎化学科学和材料科学等相关专业的同学报考本课题组的博士和硕士士研究生,以及进行博士后合作研究工作!

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