- 胡俊青
- 男
- 1968-08-15
- 学位:博士
- 职称:教授
- 所属部门:无机非金属材料系
- 导师身份:博士生导师
- 课题组:
- 社会兼职:
- Angew.Chem.,J.Am.Chem.Soc.,Adv.Mater.,Adv.Funct.Mater.,Small,Chem.-Eur.J.,Chem.Mater.,Chem.Commun.,Appl.Phys.Lett.等国际著名刊物特约审稿人和仲裁审稿人;美国材料学会、美国电镜学会、美国电化学学会、日本电镜学会会员。
- 研究方向:
- 科研方向:材料化学、纳米材料与材料物理
1)纳米材料的合成、性能与(光、电、生物)器件
2)纳米材料的原位操作与在线物理性能
3)透射电子显微学
- 荣誉获奖:
- 2008年教育部“新世纪优秀人才支持计划”;2008年上海市“曙光学者”;2009年上海市“浦江人才计划”;2004年日本国家材料科学研究所,国际青年科学家中心(ICYS),IndependentResearchFellow;2002年日本科学振兴学会(JSPS)博士后奖学金。
- 个人简历:
- 1997.8-2000.6:中国科学技术大学,无机化学专业,理学博士学位
2000.9-2002.3:香港城市大学,高级研究助理(SeniorResearchAssociate)
2002.3-2004.3:日本国家材料科学研究所,日本学术振兴会(JSPS)博士后
2004.3-2004.8:日本国家材料科学研究所,特别研究员
2004.9-2008.1:日本国家材料科学研究所,国际青年科学家中心(ICYS)
IndependentResearchFellow(1500万日元自主研究经费)
2006.5-2006.6:香港中文大学,杨振宁访问教授
2006.12-2007.1:悉尼大学,访问教授
2008.1-至今:东华大学,校特聘教授
- 主讲课程:
- 透射电子显微学,纳米材料的设计与器件组装
- 已取得的主要研究成果:
- 致力于纳米材料的制备、结构和性能及器件研究,取得了多项具有国际水平、创新性的研究成果,包括:(1)开拓性的制备了10多种重要半导体单晶纳米管,如Si、GaN;(2)组装与原位研究了多种有应用前景(电子开关和传感器)的纳米线异质结,如Si/ZnS、Ga/ZnS;(3)提出了纳米材料合成的新模型和新机理,如八面体孪晶生长模型;(4)设计与构筑了多种新型纳米功能器件,如纳米生物光伏电池。得到了国际材料学、化学、应用物理、纳米科技等领域科学家的广泛关注。
在国际重要刊物上共发表SCI论文120余篇,其中以通讯作者身份发表IF>6.0的论文21篇,包括Angew.Chem.3篇、JACS1篇、Adv.Mater.9篇、NanoLett.1篇、ACSNano1篇、Adv.Funct.Mater.4篇和Small2篇;以通讯作者身份发表6.0>IF>3.0的论文27篇。其中,封面文章6篇,综述文章3篇。授权专利14项。
全部论文共获得SCI他引2600余次,每篇论文平均被引用29.14次,h-指数为31。通讯作者或第一作者论文获得Nature、Nat.Mater.、Chem.Rev.、Adv.Phys.、Prog.SolidStateChem.、Chem.Soc.Rev.等国际顶尖刊物(IF>6.0)引用和大段评述500余次。通讯作者或第一作者论文单篇SCI他引次数超过50次的有15篇,超过100次的有6篇。
- 主要论文:
- 2011
1)Y.G.Sun,R.J.Zou,Q.W.Tian,J.H.Wu,Z.G.Chen,J.Q.Hu*,“Hydrothermalsynthesis,growthmechanism,andpropertiesofthree-dimensionalmicro/nanoscaledhierarchicalarchitecturefilmsofhemimorphitezincsilicate”,CrystEngComm2011,13,2273-2280.
2)R.J.Zou,J.Q.Hu*,Z.Y.Zhang,Z.G.Chen,M.Y.Liao,“SnO2nanoribbons:excellentfield-emitters”,CrystEngComm2011,13,2289-2293.
3)N.Wang,R.J.Zou,H.H.Chen,H.H.Chen,Y.G.Sun,J.H.Wu,Q.W.Tian,J.M.Yang,Z.G.Chen,J.Q.Hu*.“UniformZnSemicrospheresself-assembledfromZnSepolyhedronshapednanocrystals”,CrystEngComm2011,13,1518-1524.
4)H.H.Chen,R.J.Zou,N.Wang,H.H.Chen,Z.Y.Zhang,Y.G.Sun,L.Yu,Q.W.Tian,Z.G.Chen,J.Q.Hu*,“Morphology-selectivesynthesisandwettabilitypropertiesofwell-alignedCu2-xSenanostructuresonacoppersubstrate”,J.Mater.Chem.2011,21,3053-3059.
5)H.H.Chen,R.J.Zou,H.H.Chen,N.Wang,Y.G.Sun,Q.W.Tian,J.H.Wu,Z.G.Chen,J.Q.Hu*,“LightlydopedsinglecrystallineporousSinanowireswithimprovedopticalandelectricalproperties”,J.Mater.Chem.2011,21,801-805.
2010
1)R.J.Zou,Z.Y.Zhang,L.Yu,Q.W.Tian,J.H.Wu,Y.G.Sun,Z.G.Chen,J.Q.Hu*,“OrientedFree-StandingAmmoniumVanadiumOxideNanobeltMembranes:HighlySelectiveAbsorbentMaterials”,Chem.-Eur.J.2010,16,14307-14312.
2)J.Q.Hu*,R.J.Zou,Y.G.Sun,Z.G.Chen,“ExcellentFieldEmitters:Onion-ShapedTippedCarbonNanotubes”,J.Phys.Chem.C2010,114,8282-8286.
3)J.Q.Hu*,Z.G.Chen,R.J.Zou,Y.G.Sun,“Newnanowireheterostructures:SnO2nanowiresepitaxialgrowthonSibicrystallinenanowires”,CrystEngComm2010,12,89-93.
4)Z.G.Chen,Q.W.Tian,Y.L.Song,J.M.Yang,J.Q.Hu*,“PEG-mediatedsolvothermalsynthesisofNaYF4:Yb/Ersuperstructureswithefficientupconversionluminescence”,J.Alloy.Compd.2010,506,L17-L21.
5)Y.G.Sun,J.Q.Hu*,N.Wang,R.J.Zou,J.H.Wu,Y.L.Song,H.H.Chen,H.H.Chen,Z.G.Chen,“Controllablehydrothermalsynthesis,growthmechanism,andpropertiesofZnOthree-dimensionalstructures”,New.J.Chem.2010,34,732-737.
6)R.J.Zou,J.Q.Hu*,Y.L.Song,N.Wang,H.H.Chen,H.H.Chen,J.H.Wu,Y.G.Sun,Z.G.Chen,“CarbonNanotubesasFieldEmitter”,J.Nanosci.Nanotechnol.2010,10,7876-7896.
7)Z.G.Chen,Q.W.Tian,Y.L.Song,J.M.Yang,J.Q.Hu*,“One-potsynthesisofZnxCd1?xSnanocrystalswithtunableopticalpropertiesfrommolecularprecursors”,J.Alloy.Compd.2010,506,804-810.
2009
1)Z.G.Chen*,L.S.Zhang,Y.G.Sun,J.Q.Hu*,D.Y.Wang*,"980nmLaserDrivenPhotovoltaicCellsBasedonRareEarthUp-convertingPhosphorforBiomedicalApplications",Adv.Funct.Mater.2009,3815-3820.
2)J.Q.Hu*,Z.G.Chen,Y.G.Sun,H.Jiang,N.Wang,J.Zou,"ZnO-SiSide-to-SideBiaxialNanowireHeterostructureswithImprovedLuminescence",J.Mater.Chem.2009,7011-7015.
3)Y.G.Sun,J.Q.Hu*,Z.G.Chen,Y.Bandob,D.Golbergb,"ProspectiveImportantSemiconductingNanotubes:Synthesis,PropertiesandApplications",J.Mater.Chem.(FeatureArticle,SelectedasaBackCover)2009,7592-7605.
4)J.Q.Hu*,Z.G.Chen,H.Jiang,"Rectangularorsquare,tapered,andsingle-crystalPbTenanotubes",J.Mater.Chem.2009,19,3063-3068.
5)J.Q.Hu*,H.Jiang,Z.G.Chen,"Uniform,thinandcontinuousgraphiticcarbontubularcoatingsonCdSnanowires",J.Mater.Chem.2009,19,1093-1097.
6)J.Q.Hu,Y.Bandob,D.Golbergb,"Novelsemiconductingnanowireheterostructures:synthesis,propertiesandapplications",J.Mater.Chem.2009,19,330-343(FeatureArticle,SelectedasaFrontCover).
7)J.Q.Hu*,Z.G.Chen,N.Wang,Y.L.Song,H.Jiang,Y.G.Sun,"Largescaledhexagonalprismaticsub-microsizedMgcrystalsbyavapor–liquid–solidprocess",Chem.Commun.2009,4503-4505(OurChemicalCommunicationsarticlehasbeenselectedastheRSCProjectProspect.SelectedasanInsideFrontCover).
8)J.Q.Hu*,Z.G.Chen,Y.G.Sun,"RapidFabricationofNanocrystalsthroughinsituElectronBeamIrradiationinaTransmissionElectronMicroscope",J.Phys.Chem.C2009,113,5201–5205.
9)H,Jiang,J.Q.Hu*,F.Gu,W.Shao,C.Z.Li,"HydrothermalsynthesisofnovelIn2O3microspheresforgassensorsw",Chem.Commun.2009,3618–3620.
10)H,Jiang,J.Q.Hu*,F.Gu,C.Z.Li,"Large-Scaled,Uniform,MonodispersedZnOColloidalMicrospheres",J.Phys.Chem.C121382008,112,12138–12141.
11)H,Jiang,J.Q.Hu*,F.Gu,C.Z.Li,"Stablefieldemissionperformancefromurchin-likeZnOnanostructures",Nanotechnology2009,20,055706.
2002-2008
1)J.Q.Hu*,Q.Li,J.H.Zhan,Y.Jiao,Z.W.Liu,S.P.Ringer,Y.Bando,D.Golberg,“UnconventionalRibbon-Shapedb-Ga2O3TubeswithMobileSnNanowireFillings”,ACSNano2008,2,107-112(Selectedasoneofhomepageofwebsiteofhttp://www.acsnanotation.org/andasaSpotlightarticleonwebsiteofwww.nanowerk.com).
2)J.Q.Hu*,Y.Bando,J.H.Zhan,C.Z.Li,D.Golberg,“Mg3N2-Ga:NanoscaleSemiconductor–LiquidMetalHeterojunctionsinsideCarbonNanotubes”,Adv.Mater.2007,19,1342-1346.
3)J.Q.Hu*,Y.Bando,J.H.Zhan,D.Golberg,“Carbonnanotubesasnanoreactorsforfabricationofsingle-crystallineMg3N2nanowires”,NanoLett.2006,6,1136-1140.(SelectedasaSpotlightarticleonwebsiteofwww.nanowerk.com).
4)J.Q.Hu*,Y.Bando,J.H.Zhan,X.L.Yuan,T.Sekiguchi,C.Z.Li,D.Golberg,“SilicaFiberswithTriangularCrossSections”,Adv.Mater.2006,18,1852-1856(SelectedasaSpotlightarticleonwebsiteofwww.nanowerk.com).
5)J.Q.Hu*,Y.Bando,J.H.Zhan,C.Y.Zhi,F.F.Xu,D.Golberg,“TaperedCarbonNanotubesfromActivatedCarbonPowders”,Adv.Mater.2006,18,197-200.
6)J.Q.Hu*,Y.Bando,J.H.Zhan,X.L.Yuan,T.SekiguchiD.Golberg,“Self-AssemblyofSiO2NanowiresandSiMicrowiresintoHierarchicalHeterostructuresonaLarge-Scale”,Adv.Mater.2005,17,971(SelectedasInsideFrontCoverofApril8,2005issueofAdv.Mater.).
7)J.Q.Hu*,Y.Bando,J.H.Zhan,Z.W.Liu,D.Golberg,S.P.Ringer,“Single-CrystallineSub-MicrometerZnSeTubes”,Adv.Mater.2005,17,975(Top10mostreadarticlesinAdvancedMaterialsinApril2005).
8)J.Q.Hu*,Y.Bando,J.H.Zhan,D.Golberg,“FabricationofSilica-ShieldedGa-ZnSMetal-SemiconductorNanowireHeterojunctions”,Adv.Mater.2005,17,1964-1969(Top10mostreadarticlesinAdvancedMaterialsinAugust2005).
9)J.Q.Hu**,Y.Bando,D.Golberg,“Sn-CatalyzedThermalEvaporationSynthesisofTetrapod-BranchedZnSeNanorodArchitectures”,Small2005,1,95-99(Aninvitationtopublishintheinauguralissue).(SelectedasaMostCitedArticlesPublishedin2005/2006onSmall)
10)J.Q.Hu*,Y.Jiang,X.M.Meng,C.S.Lee,S.T.Lee,“Temperature-DependentGrowthofGermanium-andSiliconOxide-BasedNanostructures,SiliconOxideAlignedNanowireAssembles,andSiliconOxideMicrotubes”,Small2005,1,429-438.
11)J.Q.Hu*,Y.Bando,J.H.Zhan,D.Golberg,“ALargeGrowthofWurtziteZnSMicrometer-SizedDiskettesandNanoribbonArrayswithImprovedLuminescence”,Adv.Funct.Mater.2005,15,757-762.
12)J.Q.Hu*,Y.Bando,J.H.Zhan,Z.W.Liu,andD.Golberg,“Uniformandhigh-qualitysubmicrometertubesofGaSlayeredcrystals”,Appl.Phys.Lett.2005,87,153112.
13)J.Q.Hu*,Y.Bando,J.H.Zhan,D.Golberg,“Single-CrystallineNanotubesofII-VIBSemiconductors”,Appl.Phys.Lett.2005,87,113107;September19,2004issueofVirtualJournalofNanoscaleScience&Technology.
14)J.Q.Hu*,Y.Bando,F.F.Xu,Y.B.Li,J.H.Zhan,J.Y.Xu,D.Golberg,“GrowthandFieldEmissionPropertiesofCrystallineThin-WalledCarbonMicrotubes”,Adv.Mater.2004,16,153-156.
15)J.Q.Hu*,Y.Bando,J.H.Zhan,F.F.Xu,T.Sekiguchi,D.Golberg,“GrowthofSingle-CrystallineCubicGaNNanotubeswithRectangularCross-Sections”,Adv.Mater.2004,16,1465-1468.
16)J.Q.Hu*,Y.Bando,Z.W.Liu,J.H.Zhan,D.Golberg,“SynthesisofSiliconCrystallineTubularStructureswithZnSNanowiresasTemplates”,Angew.Chem.Int.Ed.2004,43,63-66.
17)J.Q.Hu*Y.Bando,J.H.Zhan,D.Golberg,“Sn-FilledSingle-CrystallineWurtzite-typeZnSNanotubes”,Angew.Chem.Int.Ed.2004,43,4606-4609.
18)J.Q.Hu*,Y.Bando,Z.W.Liu,J.H.Zhan,D.Golberg,“TheFirstTemplate-FreeGrowthofCrystallineSiliconMicrotubes”,Adv.Funct.Mater.2004(Fullpaper),14,610-614.
19)J.Q.Hu*,Y.Bando,J.H.Zhan,D.Golberg,“FabricationofZnS/SiCNanocables,SiC-ShelledZnSNanoribbons(andSheets),andSiCNanotubes(andTubes)”,Appl.Phys.Lett.2004,85,2932-2934;October25,2004issueofVirtualJournalofNanoscaleScience&Technology.
20)J.Q.Hu*,Y.Bando,J.H.Zhan,D.Golberg,“Si/ZnSandSi/ZnSeCore/ShellNanocrystalStructures”,Appl.Phys.Lett.2004,85,3593-3595.November8,2004issueofVirtualJournalofNanoscaleScience&Technology.
21)J.Q.Hu*,Y.Bando,T.Sekiguchi,J.H.Zhan,“2-DimensionalExtremelyThinSingle-Crystallinea-Si3N4Microribbons”,Appl.Phys.Lett.2004,84,804-806.
22)J.Q.Hu*,Y.Bando,Z.W.Liu,T.Sekiguchi,J.H.Zhan,“UniformMicro-SizedRibbon-Shapeda-andb-Si3N4WhiskersGrownviaaHigh-TemperatureThermal-Decomposition-NitridationRoute”,Chem.-Eur.J.2004,10,554-558(Fullpaper).
23)J.Q.Hu*,Y.Bando,D.Golberg,Q.L.Liu,“GalliumNitrideNanotubesbytheConversionGalliumOxideNanotubes”,Angew.Chem,Int.Ed.2003,42,3493-3497.
24)J.Q.Hu*,Y.Bando,Z.W.Liu,T.Sekiguchi,D.Golberg,J.H.Zhan,“EpitaxialHeterostructures:Side-to-SideSi-ZnS,Si-ZnSeBiaxialNanowires,andSandwich-likeZnS-Si-ZnSTriaxialNanowires”,J.Am.Chem.Soc.2003,125,11306-11313(Fullpaper).
25)J.Q.Hu*,Y.Bando,ZongwenLiu,“SynthesisofGallium-FilledGalliumOxide-ZincOxideCompositeCoaxialNanotubes”,Adv.Mater.2003,15,1000-1003.
26)J.Q.Hu,X.M.Meng,Y.Jiang,C.S.Lee,S.T.Lee,“FabricationofGermanium-FilledSilicaNanotubesandAlignedSilicaNanofibers”,Adv.Mater.2003,15,70-73.
27)J.Q.Hu*,Y.Bando,Q.L.Liu,D.Golberg,“Laser-AblationGrowthandOpticalPropertiesofWideandLongSingle-CrystalSnO2Ribbons”,Adv.Funct.Mater.2003,13,493-496(Fullpaper).
28)J.Q.Hu,Q.Li,X.M.Meng,C.S.Lee,S.T.Lee,“ThermalReductionRoutetotheFabricationofCoaxialZn/ZnOnanocablesandZnOnanotubes”,Chem.Mater.2003,15,305-308(Fullpaper).
29)J.Q.Hu*,Y.Bando,J.H.Zhan,Y.B.Li,andT.Sekiguchi,“Two-DimensionalMicrometer-SizedSingle-CrystallineZnOThinNanosheets”,Appl.Phys.Lett.2003,83,4414-4416;December1,2003issueofVirtualJournalofNanoscaleScience&Technology.
30)J.Q.Hu*,Y.Bando,“Growthandopticalpropertiesofsingle-crystaltubularZnOwhiskers”,Appl.Phys.Lett.2003,82,1401-1403.
31)J.Q.Hu,Y.Jiang,X.M.Meng,C.S.Lee,S.T.Lee,“Asimplelarge-scalesynthesisofverylongalignedsilicananowires”,Chem.Phys.Lett.2003,367,339-343.
32)J.Q.Hu,Q.Li,X.M.Meng,C.S.Lee,S.T.Lee,“Synthesisandnanostructuringofpatternedwiresofalpha-GeO2bythermaloxidation”,Adv.Mater.2002,14,1396-1399.
33)J.Q.Hu,Q.Li,N.B.Wong,C.S.Lee,andS.T.Lee,“SynthesisofUniformHexagonalPrismaticZnOWhiskers”,Chem.Mater.2002,14,1216-1219(Fullpaper).
34)J.Q.Hu,Q.Li,X.M.Meng,C.S.Lee,S.T.Lee,“Synthesisofb-Ga2O3NanowiresbyLaserAblation”,J.Phys.Chem.B2002,106,9536-9539(Fullpaper).
35)J.Q.Hu,X.L.Ma,N.G.Shang,Z.Y.Xie,N.B.Wong,C.S.Lee,andS.T.Lee,“LargeScaleRapidOxidationSynthesisofSnO2Nanoribbons”,J.Phys.Chem.B2002,106,3823-3836(Fullpaper).(SelectedasamemberofMorethan100citationspublishedsince2001TheC+CitationsClubonJ.Phys.Chem.B)
36)J.Q.Hu*,B.Deng,W.X.Zhang,K.B.Tang,Y.T.Qian,“Galliumnitridesynthesisfromsodiumazideusingiodineasaheatsinkanddiluent”,Chem.Phys.Lett.2002,351,229-234.
37)J.H.Zhan,Y.Bando,J.Q.Hu,L.W.Yin,X.L.Yuan,T.Sekigitchi,D.Golberg,“Hollowandpolygonousmicrotubesofmonocrystallineindiumgerminate”,Angew.Chem.Int.Ed.2006,45,228.
38)J.H.Zhan,Y.Bando,J.Q.Hu,D.Golberg,K.Kurashima,“FabricationofZnOnanoplate-nanorodjunctions”,Small2006,2,62.
39)J.H.Zhan,Y.Bando,J.Q.Hu,D.Golberg,“NanofabricationonZnOnanowires”,Appl.Phys.Lett.2006,89,243111.
40)G.Z.Shen,Y.Bando,J.Q.Hu,D.Golberg,“Single-crystallinetrumpetlikezincphosphidenanostructures”,Appl.Phys.Lett.2006,88,143105.
41)Z.W.Liu,Y.Bando,J.Q.Hu,K.Ratinac,S.P.“Anovelmethodforpracticaltemperaturemeasurementwithcarbonnanotubenanothermometers”,Nanotechnology,2006,17,3681-3684.
42)D.Golberg,Y.Bando,A.Prokofiev,J.Q.Hu,L.W.Yin,J.H.Zhan,“Novelunconventionalinorganicnanowires:fabrication,structuralanalysisandelectricalpropertyevaluation”,Appl.Phys.A-Mater.Sci.Processing,2006,85,265-270.
43)J.H.Zhan,Y.Bando,J.Q.Hu,Z.W.Liu,D.Golberg“FabricationofMetal-SemiconductorJunctions”,Angew.Chem.Int.Ed.2005,44,2140.
44)F.F.Xu,J.Q.Hu,Y.Bando,“Tubularconfigurationsandstructure-dependentanisotropicstrainsinGaSmulti-walledsub-microtubes”,J.Am.Chem.Soc.2005,127,16860-16865(Fullpaper).
45)J.H.Zhan,Y.Bando,J.Q.Hu,T.Sekiguchi,D.Golberg“One-Catalyst-ConfinedGrowthofZnS/SiCompositeNanowires”,Adv.Mater.2005,17,225-230.
46)J.H.Zhan,Y.Bando,J.Q.Hu,F.F.Xu,D.Golberg,“UnconventionalGalliumOxideNanowires”,Small,2005,1,883.
47)J.H.Zhan,Y.Bando,J.Q.Hu,Y.B.Li,D.Golberg,“Synthesisandfield-emissionpropertiesofGa2O-3-Cnanocables”,Chem.Mater.2005,16,5158.
48)J.H.Zhan,Y.Bando,J.Q.Hu,D.Golberg,“LiquidGalliumColumnsSheathedwithCarbon:BulkSynthesisandManipulation”,J.Phys.Chem.B2005,109,11580.
49)Q.L.Liu,T.Tanaka,J.Q.Hu,F.F.Xu,T.Sekiguchi,“Greenemissionfromc-axisorientedAlNnanorodsdopedwithTb”,Appl.Phys.Lett.2003,83,4939-4941.
50)X.M.Meng,J.Q.Hu,Y.Jiang,C.S.Lee,andS.T.Lee,“Oxide-assistedgrowthandcharacterizationofGe/SiOxnanocables”,Appl.Phys.Lett.2003,83,2241-2243.
- 授权的专利:
- 申请日本专利21项,其中11项专利已经授权:
序号,专利名称,专利授权国,专利号,授权公告日,本人排序
1)2DMicrometer-ScaleThinNanosheetsofZnOSingleCrystallineonLargeScale.日本,3918063,2006-06,2
2)SynthesisofGallium-FilledGalliumOxide-ZincOxideCompositeCoaxialNanotubes.日本,4009227,2006-09,2
3)ASimpleEpitaxialGrowthofSide-to-sideSi-ZnSeBiaxialCompositeNanowires.日本,3837554,2006-08,2
4)EpitaxialHeterostructures:Side-to-sideSi-ZnSandSandwich-likeZnS-Si-ZnS.日本,3837569,2006-08,2
5)Self-catalystGrowthofNovelFishbone-likeSnO2Nanoribbons.日本,3981728,2006-07,2
6)GrowthandOpticalPropertyofVeryThinandWideSingleCrystalαSi3N4Ribbons.日本,3918060,2006-02,2
7)UniformMicroSizedα-andβ-Si3N4RibbonsGrownviaaHigh-TemperatureThermal-Decomposition-NiridationRoute.日本,4072622,2006-01,2
8)CreationofGalliumNitridenanotubesThroughGalliumOxideNanotube.日本,3893464,2006-12,2
9)SythesisofSiliconCrystallineTubularNanostructureswithZnSNanowiresasRemovableTemplates.日本,3985044,2006-07,2
10)GrowthandOpticalofSingle-CrystalTubularZnOWhiskers.日本,3837540,2006-08,2
- 近几年承担的科研项目:
- 1)基于无机纳米线异质结的电子开关:设计、组装及性能研究,教育部新世纪优秀人才支持计划(NCET-08-0761),50万元,2009.01-2011.12
2)TEM下纳米材料的制备、微结构、性能及原位操纵,国家自然科学基金(50872020),36万元,2009.01-2011.12
3)纳米管包覆的金属-金属纳米线异质结基电子开关,上海市“曙光学者”支持计划(08SG32),15万元,2009.01-2011.12
4)纳米材料单体的在线加工与原位操纵,上海市浦江人才支持计划(09PJ51400500),30万元,2009.01-2011.12
5)纳米结构的第三代太阳能电池:设计、组装、性能及机理研究,上海市科委重点科技项目(10JC400100),25万元,2010.10-2013.09
6)半导体纳米线异质结:设计、制备、性能及相关器件,日本国家材料科学研究所IndependentResearchFellow自主研究经费1500.0万日元,2004.09-2008.01
7)纳米材料单体的在线加工与原位操纵(上海市“浦江人才计划”)
8)东华大学校特聘教授基金,150万,2008-2012
- 国际交流与合作:
- 与日本国家材料科学研究所、悉尼大学、新加坡国立大学、香港城市大学、香港中文大学、台湾清华大学、麻省理工学院等国际著名研究机构进行广泛的学术交流和合作。
先后参加国际学术会议20余次,其中大会特邀报告6次(注明:*大会报告人)
1)胡俊青*,“NovelNanowireHeterostructures:Design,Synthesis,andProperties”,2008第七届中国国际纳米科技(武汉)研讨会,2008,10月23日-27日(特邀报告,分会主席)。
2)J.Q.Hu*,etal.“Semiconductor–LiquidMetalNanowireHeterojunctions:Fabrications,Properties,andPotentialApplicationsinNanosystem”,NanoscaleOne-DimensionalElectronicandPhotonicDevicesatthe214thMeetingoftheElectrochemicalSociety,Honolulu,Hawaii,October12-17,2008.(特邀报告)。
3)J.Q.Hu*,etal.“TheSynthesisofMg3N2nanowiresandMg3N2-GaSemiconductor-MetalNanowireHeterojunctions”,TheworkshopofNanoscienceandNanotechnology,2007,October,28-31,Beijing,China.(特邀报告)。
4)J.Q.Hu*,etal.“NovelMetal-SemiconductorNanowireHeterojunctions”,17thInternationalSymposiumonFineChemistryandFunctionalPolymers&IUPAC3rdInternationalSymposiumonNovelMaterialsandSynthesis,2007,October,17-21,Shanghai,China.(特邀报告)。
5)J.Q.Hu*,etal.“GrowthofSemiconductorCompoundNanotubes”,STATE-OF-THE-ARTPROGRAMONCOMPOUNDSEMICONDUCTORSatthe211thMeetingofTheElectrochemicalSociety,2007,May6-11,Chicago,IL,USA.(特邀报告)。
6)J.Q.Hu*,etal.“Silica-ShieldedGa-ZnSMetal-SemiconductorNanowireHeterojunctions”,Microscopy&Microanalysis2006,2006,July30-August4,Chicago,Illinois,USA.(特邀报告)。
7)J.Q.Hu*,etal.“NovelSemiconductorNano-andMicrotubes:Synthesis,CharacterizationandProperties”,ChinaNANAO2005-ChinaInternationalConferenceonNanoscience&Technology,2005,June9-11,Beijing,China.
8)J.Q.Hu*,etal.“FabricationofNovelSemiconductingNanowireHeterostructures”,2005MRSFallMeeting,2005,November28-December2,Boston,USA.
- 其他:
- 电话:67792947
- Email:hu.junqing@dhu.edu.cn
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