华南师范大学华南先进光电子研究院导师介绍:任志锋
任志锋,1963年生,美国人,教授。1987年6月毕业于华中理工大学,获硕士学位;1990年4月毕业于中科院物理研究所,获博士学位;1992年8月毕业于美国纽约州立大学布法罗分校,获博士后;1992年9月~1995年8月在美国纽约州立大学布法罗分校任化学系研究科学家/讲师;1995年9月~1998年8月在美国纽约州立大学布法罗分校任化学系研究型助理教授;1998年9月~1999年8月在美国纽约州立大学布法罗分校任化学系研究型副教授;1999年9月~2004年8月在美国波士顿学院任物理系副教授;2004年9月至今,在美国波士顿学院任物理系正教授。
研究方向:
纳米材料、清洁能源等。
科研论文:
1.SynthesisofLargeArraysofWell-AlignedCarbonNanotubesonGlass.Science282,1105–1107(1998).(第一作者)
2.Advancesinthescienceandtechnologyofcarbonnanotubesandtheircomposites:areview.CompositesScienceandTechnology61,1899-1912(2001).(第二作者)
3.GrowthofaSingleFreestandingMultiwallCarbonNanotubeonEachNanonickelDot.Appl.Phys.Lett.75,1086–1088(1999).(第一作者)
4.GrowthofLarge-ScaleWell-AlignedCarbonNanotubesbyPlasmaEnhancedHotFilamentChemicalVaporDeposition.Appl.Phys.Lett73,38453847(1998).(第三作者)
5.Multiferroicity:theCouplingbetweenMagneticandPolarizationOrders.AdvancesinPhysics58,321–448(2009).(第三作者)
6.EnhancedfieldemissionofZnOnanowires.AdvancedMaterials16,2028–2032(2004).(第三作者)
7.XUnrestrictedsuperlensinginatriangulartwo-dimensionalphotoniccrystal.OpticsExpress12,2919–2924(2004).(第二作者)
8.Fieldemissionofzincoxidenanowiresgrownoncarboncloth.Appl.Phys.Lett.85,1407–1409(2004).(第三作者)
9.Puredx2-y2orderparametersymmetryinthetetragonalsuperconductorTl2Ba2CuO6+d.Nature387,481–483(1997).(第三作者)
10.StraightcarbonnanotubeY-junctions.Appl.Phys.Lett.79,1879-1881(2001).(第三作者)
11.CleanDouble-walledCarbonNanotubesSynthesizedbyCVD.Chem.Phys.Lett.368,299–306(2003).(第三作者)
12.BulkNanostructuredThermoelectricMaterials:CurrentResearchandFutureProspects.Energy&EnvironmentalScience2,466–479(2009).(第三作者)
13.NanoelectrodeArraysBasedonLowSiteDensityAlignedCarbonNanotubes.NanoLetters3,107-109(2003).(第三作者)
14.Alignedmillimeter-longcarbonnanotubesarraysgrownonsinglecrystalmagnesia.Carbon44,969–973(2006).(第三作者)
15.Effectoftemperatureongrowthandstructureofcarbonnanotubesbychemicalvapordeposition.Appl.Phys.A74,397-402(2002).(第三作者)
专利情况:
1.Z.F.Ren,Z.P.Huang,J.H.Wang,andD.Z.Wang,"Free-StandingandAlignedCarbonNanotubesandSynthesisThereof",US6,863,942,issuedonMar8,2005.
2.R.Schlaf,Z.F.Ren,J.G.Wen,andD.L.Carnahan,“MethodofProducingaBranchedCarbonNanotubeforUsewithanAtomicForceMicroscope”,US6,871,528,issuedonMar29,2005.
3.Z.F.Ren,J.G.Wen,J.Y.Lao,andW.Z.Li,“ReinforcedCarbonNanotubes”,US6,911,260,issuedonJune28,2005.
4.S.O.Kelley,J.Fourkas,M.J.Naughton,andZ.F.Ren,“DNA-BridgedCarbonNanotubesArrays”,US6,958,216,issuedonOct25,2005.
5.Z.F.Ren,J.G.Wen,J.H.Chen,Z.P.Huang,andD.Z.Wang,“CoatedCarbonNanotubeArrayElectrodes”,US7,147,966,issuedonDec12,2006.
6.W.Z.Li,J.G.Wen,andZ.F.Ren,“VariedMorphologyCarbonNanotubesandMethodsforTheirManufacture”,US7,157,068,issuedonJan2,2007.
7.Z.F.Ren,G.Chen,B.Poudel,S.Kumar,W.Z.Wang,andM.S.Dresselhaus,“MethodsforSynthesisofSemiconductorNanocrystalsandThermoelectricComposites”,US7,255,846,issuedonAug14,2007.
8.Z.F.Ren,J.Y.Lao,andD.Banerjee,“MetalOxideNanostructureswithHierachicalMorphology”,US7,294,417,issuedonNov13,2007.
9.Z.F.Ren,J.G.Wen,J.H.Chen,Z.P.Huang,andD.Z.Wang,“CoatedCarbonNanotubeArrayElectrodes”,US7,442,284,issuedonOct28,2008.
10.Z.F.Ren,J.G.Wen,J.Y.Lao,andW.Z.Li,“ReinforcedCarbonNanotubes”,US7,442,414,issuedonOct28,2008.
11.Z.F.Ren,Y.H.Lin,W.Yantasee,G.D.Liu,F.Lu,andY.Tu,“CarbonNanotubeNanoelectrodeArrays”,US7,452,452,issuedonNov18,2008.
12.Z.F.Ren,andY.Tu,“DensityControlledCarbonNanotubeArrayElectrodes”,US7,465,494,issuedonDec16,2008.
13.G.Chen,Z.F.Ren,andM.S.Dresselhaus,“NanocompositeswithHighThermoelectricFiguresofMerit”,US7,465,871,issuedonDec16,2008.
14.Z.F.Ren,G.Chen,B.Poudel,S.Kumar,W.Z.Wang,andM.S.Dresselhaus,“DopedSemiconductorNanoparticlesandMethodsofSynthesisThereof”,US7,586,033,issuedonSept8,2009.
15.K.Kempa,M.J.Naughton,Z.F.Ren,andJ.A.Rybczynski,“ApparatusandMethodsforManipulatingLightUsingNanoscaleCometalStructures”,US7,589,880,issuedonSep15,2009.
16.Z.F.Ren,S.Kumar,G.Chen,andH.Lee,“ThermoelectricPropertiesbyHighTemperatureAnnealing”,US7,591,913,issuedonSept22,2009.
17.M.Naughton,K.Kempa,andZ.F.Ren,“NanoscaleOpticalMicroscope”,US7,623,746,issuedonNov24,2009.
18.K.Kempa,M.J.Naughton,Z.F.Ren,andJ.A.Rybczynski,“ApparatusandMethodsforNanolithographyUsingNanoscaleOptics”,US7,634,162,issuedonDec15,2009.
19.K.Kempa,Z.F.Ren,M.J.Naughton,andJ.A.Rybczynski,“Appratusandmethodsforopticalswitchingusingnanoscaleoptics”,US7,649,665,issuedonJan19,2010.
20.Z.F.Ren,S.H.Jo,andD.Banerjee,“DeviceandMethodforAchievingEnhancedFieldEmissionUtilizingNanostructuresGrownonaConductiveSubstrate”,US7,666,051,issuedonFeb23,2010.
21.K.Kempa,M.J.Naughton,Z.F.Ren,Y.Wang,andJ.A.Rybczynski,“ApparatusandMethodsforSolarEnergyConversionUsingNanocoaxStructures”,US7,754,964,issuedonJuly13,2010.
22.K.Kempa,M.J.Naughton,Z.F.Ren,andJ.A.Rybczynski,“ApparatusandMethodsforSolarEnergyConversionUsingNanoscaleCometalStructures”,2011,US7,943,847,issuedonMay17.
23.Z.F.Ren,W.Z.Wang,andG.Y.Xiong,“GrowthofPureandLongSiliconNanowiresinLargeQuantityonTableSaltSupport”,U.S.Patent(pending).
24.B.Poudel,W.Z.Wang,Z.F.Ren,G.Chen,andM.Dresselhaus,“HydrothermalSynthesisofPbTeNanocrystals,DopingbySilver,Copper,etc.,andTheirThermoelectricProperties”,U.S.Patent(pending).
25.B.Poudel,S.Kunwar,W.Z.Wang,Z.F.Ren,andGangChen“LowTemperatureSynthesisofPbSeNanoparticlesandEnhancedThermoelectricProperties”,U.S.Patent(pending).
26.Z.F.Ren,Y.Wang,andK.Kempa,“SolarCellsUsingRandomArraysofCarbonNanotubeOpticalRectennas”,U.S.Patent(pending).
27.K.Kempa,Y.Wang,andZ.F.Ren,“OpticalAntennasUsingAlignedCarbonNanotubes”,U.S.Patent(pending).
学术兼职:
1.当前纳米技术专利编辑顾问委员
2.物理学进展杂志编委
3.南京大学长江学者海外讲座教授
4.华南师范大学广东省科技领军人才
5.华南师范大学中组部千人计划
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