温鸣教授博士生导师

联系电话65982653-8544Emailm_wen@tongji.edu.cn
专业方向无机化学办公室65982653-8636

研究方向：功能纳米合金、固体无机化学、磁性纳米材料
个人介绍
2002年日本近畿大学理工学部化学系获博士学位；2002年同济大学化学系副教授；2004年入选同济大学优秀青年教师；2009年晋升为同济大学教授化学系教授、博士生导师；2011年赴日本东北大学高访学术交流。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《普通化学实验》和国家“十二五”教材《普通化学》的编写。
主要从事纳米化学、纳米合金材料、固体无机材料等方面的科研工作。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。作为第一作者或通讯联系人在AdvancedFunctionalMaterials,ChemicalCommunications,Chemistry-AEuropeanJournal,JournalofMaterialsChemistry,InorganicChemistry,TheJournalofPhysicalChemistryC等相关专业国际重要学术期刊上面发表了40余篇SCI研究论文，申请公开发明专利十多项（6项授权）。
作为项目负责人承担了1项国家973项目子课题、4项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多项重要研究课题。
研究领域：功能纳米合金、固体无机化学、磁性纳米材料
主要研究方向：多元纳米合金超结构的设计、制备与催化性能研究
功能导向型纳米合金及其复合材料的调控合成与性能研究
磁性纳米合金及其器件的应用与开发研究
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研究生，以及进行博士后合作研究工作!
作近年发表的部分研究论文：
(15)BaoleiSun,MingWen*,et.al,OrientedGrowth&AssemblyofAg@C@CoPentagonal-prismNanocablesandTheirHighlyActivitySelectedCatalysisalongEdgesforDehydrogenation;AdvancedFunctionalMaterials,2012,22,2860-2866.
(14)ShiqingZhou,MingWen*,et.al,HighlyActiveNiCoAlloyHexagonalNanoplateswithCrystalPlaneSelectiveDehydrogenationandVisible-lightPhotocatalysisJournalofMaterialsChemistry,2012,22,16858-16864.
(13)MingWen*,BaoleiSun,et.al,ControllableAssembllyofAg/C/NiMagneticNanocablesandItsLowActivationEnergyDehydrogenationCatalysis,JournalofMaterialsChemistry,2012,22(33),11988-11992.
(12)MingWen*,MingZhuCheng,et.al,SynthesisofReusableNiCo@PtNanoalloysFromIcosahedrontoSphere22(33)sByElementLithographyandTheirSynergisticPhotocatalysisforNano-ZnOTowardDyeWastewaterDegradation,TheJournalofPhysicalChemistryC,2012,116,11702-11708.
(11)MingZhuCheng,MingWen*,et.al,SolvothermalSynthesisofNiCoAlloyIcosahedralNanocrystalsInorganicChemistry,2012,51(3),1495–1500.
(10)MingWen*,FanZhang,et.al,InducingGrowthofFeNi-PtMatch-likeMagneticNanoheterostructuresonPtNanotipsandDechlorinationofHydrochloricether,ChemPhysChem,2011,12,3573-3577.
(9)MingWen*,XiangguoMeng,et.al,Length-controllableCatalyzing-synthesisandLength-correspondingPropertiesofFeCo/PtNanorods,InorganicChemistry,2011,50,9393-9399.
(8)YijunChen,MingWenandQingshengWu*,StepwiseBlossomingofBiOBrNanoplate-assembledMicroflowersandTheirVisible-lightPhotocatalyticActivities,CrystEngComm,2011,13,3035-3039.
(7)FengZhang,MingWen,et.al,Pt-on-NiCoNanostructureswithFacilitatedElectrocatalyticActivitiesforSensitiveDeterminationofIntracellularThiolswithLong-TermStability,Chemistry-AEuropeanJournal,2010,16(36),11115-11120.
(6)FanZhang,MingWen*,et.al,InducingNanolayers-assemblyofFePtDy1DSuperstructureandItsInducedVisibleLightPhotocatalysisEffectforTiO₂,JournalofMaterialsChemistry,2010,20,7661-7668.
(5)MingWen*,DanYang,et.al,InducingSynthesisofAmorphousEuFePtNanorodsandTheirComprehensiveEnhancementofMagnetism,ThermostabilityandPhotocatalysis,ChemicalCommunications,2010,46,219-221.
(4)MingWen*,YaFenWang,et.al,ControlledFabricationof0&2DNiCuAmorphousNano-alloysbytheCooperationofHard-SoftInterfacialTemplates,JournalofColloidandInterfaceScience,2010,342,229-235.
(3)MingWen,HaiqingLiu,et.al,AmorphousFeNiPtnanoparticleswithtunablelengthforelectrocatalysisandelectrochemicaldeterminationofthiols,ChemicalCommunications,2009,30,4530-4531.
(2)MingWen*,YaFenWang,et.al,NanostructuresofNiandNiCoAmorphousAlloysSynthesizedbyaDoubleCompositeTemplateApproach,TheJournalofPhysicalChemistryC,2009,113(15),5960-5966.
(1)MingWen*,Yuan-zhengZhu,et.al，Composition-dependedAssemblyandMagneticSpecificityof(Fe_1-xNi_x)_0.5Pt_0.5AmorphousNanothreadsThroughSubstitutionofNiforFeinFePtSystem，TheJournalofPhysicalChemistryC,2009,113(46),19883-19890.