姓名:徐艺军
性别:男
职称:教授(博导)
学历:博士研究生
职务:
电话:**
专业:物理化学
电子邮件:yjxu@fzu.edu.cn
研究方向:光催化,多相催化;研究小组主页:http://xuyijun.fzu.edu.cn
教育工作经历
2007.1-2009.1德国马普协会Fritz-Haber研究所博士后(导师:Prof.RobertSchlog)
2003.10-2006.10英国Cardiff大学博士(导师:Prof.GrahamJ.Hutchings)
教学简介
2.本科生《环境化学导论》
科研简介
近年来已在Nature,ACSNANO,ChemicalScience,ChemistryofMaterials,JournalofCatalysis,AdvancedFunctionalMaterials,JournalofMaterialsChemistry,JournalofOrganicChemistry,AppliedCatalysisB,Langmuir,CurrentOrganicChemistry,JournalofPhysicalChemistryBorC,ChemSusChem,ACSAppliedMaterials&Interfaces,JournalofChemicalPhysics,CatalysisLetters,TopicsinCatalysis,中国科学-化学,中国化学,和物理化学学报等国内外重要学术刊物上发表SCI研究论文80余篇,论文的总引用次数达1600余次。
目前的主要研究方向包括:纳米材料制备及其在多相催化(光催化和热催化)选择性氧化还原(有机合成)和降解有机污染物方面(环境净化)的活性以及光催化作用机理研究。
社会兼职
科研项目
1.福州大学引进人员基金(闽江学者特聘教授科研启动基金)
2.国家自然科学基金(20903023)
3.教育部留学回国人员科研启动基金
4.国家自然科学基金(21173045)
5.福建省杰出青年自然科学基金(2012J06003)
代表性论文
29.ACriticalandBenchmarkComparisononGraphene-,CarbonNanotube-,andFullerene-SemiconductorNanocompositeasVisibleLightPhotocatalyst
NanZhang,YanhuiZhang,Min-QuanYang,Zi-RongTang,Yi-JunXu*
JournalofCatalysis,2012,ASAParticle.
28.GrapheneTransformsWideBandGapZnStoaVisibleLightPhotocatalyst.TheNewRoleofGrapheneasaMacromolecularPhotosensitizer
YanhuiZhang,NanZhang,Zi-RongTang,Yi-JunXu*
ACSNano,2012,6,9777-9789.
27.SynthesisofOne-DimensionalCdS@TiO2Core-ShellNanocompositesPhotocatalystforSelectiveRedox.TheDualRoleofTiO2Shell
SiqiLiu,NanZhang,Zi-RongTang,Yi-JunXu*
ACSAppliedMaterials&Interfaces,2012,4,6378-6385.
26.RecentProgressonGraphene-basedPhotocatalysts:CurrentStatusandFuturePerspectives
NanZhang,YanhuiZhang,Yi-JunXu*
Nanoscale,2012,4,5792-5813.
25.ConstructingTernaryCdS–Graphene–TiO2HybridsontheFlatlandofGrapheneOxidewithEnhancedVisibleLightPhotoactivityforSelectiveTransformation
NanZhang,YanhuiZhang,XiaoyangPan,Min-QuanYang,Yi-JunXu*
JournalofPhysicalChemistryC,2012,116,18023-18031.(HighlightedonJournalCOVER).
24.TransformingCdSintoanEfficientVisibleLightPhotocatalystforSelectiveOxidationofSaturatedPrimaryC–HBondsunderAmbientConditions
YanhuiZhang,NanZhang,Zi-RongTang,Yi-JunXu*
ChemicalScience,2012,3,2812-2822.
23.ImprovingthePhotocatalyticPerformanceofGraphene-TiO2NanocompositeviaaCombinedStrategyofDecreasingDefectsofGrapheneandIncreasingInterfacialContact.
YanhuiZhang,NanZhang,Zi-RongTang,Yi-JunXu*
PhysicalChemistryChemicalPhysics,2012,14,9167-9175.
22.TuningtheOpticalPropertyandPhotocatalyticPerformanceofTitanateNanotubetowardSelectiveOxidationofAlcoholsunderAmbientConditions.
Zi-RongTang*,YanhuiZhang,Yi-JunXu
ACSAppliedMaterials&Interfaces,2012,4,1512-1520.
21.FabricationofCoenocyticPd@CdSNanocompositeasaVisibleLightPhotocatalystforSelectiveTransformationunderMildConditions.
NanZhang,SiqiLiu,XianzhiFu,Yi-JunXu*
JournalofMaterialsChemistry,2012,22,5042-5052.
20.RecentProgressonMetalCore@SemiconductorShellNanocompositesasaPromisingTypeofPhotocatalyst.
NanZhang,SiqiLiu,Yi-JunXu*
Nanoscale,2012,4,2227-2238.
2011
19.AssemblyofCdSNanoparticlesontheTwoDimensionalGrapheneScaffoldasVisible-Light-DrivenPhotocatalystforSelectiveOrganicTransformationunderAmbientConditions
NanZhang,YanhuiZhang,XiaoyangPan,XianzhiFu,SiqiLiu,Yi-JunXu*
JournalofPhysicalChemistryC,2011,115,23501-23511.
18.AFacileandHigh-YieldApproachtoSynthesizeOne-DimensionalCeO2NanotubewithWell-ShapedHollowInteriorasaPhotocatalystforDegradationofToxicPollutants.
Zi-RongTang*,YanhuiZhang,Yi-JunXu
RSCAdvances,2011,1,1772-1777.
17.ASimpleStrategyforFabricationof“Plum-Pudding”TypePd@CeO2SemiconductorNanocompositeasaVisible-Light-DrivenPhotocatalystforSelectiveOxidation
NanZhang,SiqiLiu,XianzhiFu,Yi-JunXu*
JournalofPhysicalChemistryC,2011,115,22901-22909.
16.EngineeringtheUnique2DMatofGraphenetoAchieveGraphene-TiO2NanocompositeforPhotocatalyticSelectiveTransformation:WhatAdvantagedoesGrapheneHaveoverItsForebearCarbonNanotube?
YanhuiZhang,Zi-RongTang,XianzhiFu,Yi-JunXu*
ACSNano,2011,5,7426-7435.
15.光催化选择性氧化还原体系在有机合成中的研究进展
张楠,张燕辉,潘晓阳,付贤智,徐艺军*
中国科学B辑:化学,2011,41,1097-1111.
14.SynthesisofM@TiO2(M=Au,Pd,Pt)Core–ShellNanocompositeswithTunablePhotoreactivity
NanZhang,SiqiLiu,XianzhiFu,Yi-JunXu*
JournalofPhysicalChemistryC,2011,115,9136-9145.
13.AFacileandGreenApproachtoSynthesizePt@CeO2NanocompositewithTunableCore-ShellandYolk-ShellStructureanditsApplicationsasaVisibleLightPhotocatalyst
NanZhang,XianzhiFu,Yi-JunXu*
JournalofMaterialsChemistry,2011,21,8152-8158.
12.NanocompositeofAg-AgBr-TiO2asaPhotoactiveandDurableCatalystforDegradationofVolatileOrganicCompoundsintheGasPhase
YanhuiZhang,Zi-RongTang,XianzhiFu,Yi-JunXu*
AppliedCatalysisB,2011,106,445-452.
11.CompositesofTitanateNanotubeandCarbonNanotubeasPhotocatalystwithHighMineralizationRatioforGas-PhaseDegradationofVolatileAromaticPollutant
Zi-RongTang*,FanLi,YanhuiZhang,XianzhiFu,Yi-JunXu
JournalofPhysicalChemistryC,2011,115,7880-7886.
10.ComputationalInvestigationofCoverage-DependentBehavioronFunctionalizationoftheSemiconductorX(100)-2×1Surface(X=C,Si,andGe)byCycloadditionofTransitionMetalOxides
Bao-ZhenSun,Wen-KaiChen,Yi-JunXu*
JournalofPhysicalChemistryC,2011,115,5800-5808.
2010
9.TiO2GrapheneNanocompositesforGas-PhasePhotocatalyticDegradationofVolatileAromaticPollutant:IsTiO2GrapheneTrulyDifferentfromOtherTiO2CarbonCompositeMaterials?
YanhuiZhang,Zi-RongTang,XianzhiFu,Yi-JunXu*
ACSNano,2010,4,7303-7314.
8.NewInsightforEnhancedPhotocatalyticActivityofTiO2byDopingCarbonNanotubes:ACaseStudyonDegradationofBenzeneandMethylOrange
Yi-JunXu*,YangbinZhuang,XianzhiFu
JournalofPhysicalChemistryC,2010,114,2669-2676.
7.IntriguingChemistryinOrganicFunctionalizationofthe(100)SurfaceofSemiconductorsC,SiandGeFeaturinganAnalogousBondingMotiftoAlkenes
Yi-JunXu*
CurrentOrganicChemistry,2010,14,264-280.
6.ReactionmechanismofCOoxidationonCu2O(111):Adensityfunctionalstudy
Bao-ZhenSun,Wen-KaiChen*,Yi-JunXu
JournalofChemicalPhysics,2010,133,154502-154508.
5.Coverage-DependentBehavioronOrganicFunctionalizationoftheSemiconductorX(100)-2×1Surface(X=C,Si,andGe)byCarbene,Silylene,Germylene,andNitrene:APeriodicDFTStudy
Bao-ZhenSun,Wen-KaiChen,Yi-JunXu*
JournalofPhysicalChemistryC,2010,114,6543-6552.
4.Ti-HMSasaSingle-SitePhotocatalystfortheGas-PhaseDegradationofBenzene
YangbinZhuang,Hai-YanSong,GangLi*,Yi-JunXu*
MaterialsLetters,2010,64,2491-2493.
3.CharacterizationandCatalyticPerformanceofAu/Ti-HMSCatalystsontheOxidativeDesulphurizationUsinginSituH2O2:EffectofMethodCatalystsPreparation
Hai-YanSong,GangLi*,Xiang-ShengWang,Yi-JunXu*
CatalysisToday,2010,149,127-131.
2009
2.FunctionalizationoftheSemiconductorSurfacesofDiamond(100),Si(100),andGe(100)byCycloadditionofTransitionMetalOxides:ATheoreticalPrediction
Yi-JunXu*,XianzhiFu
Langmuir,2009,25,9840-9846.
1.CoadsorptionofCOandNOontheCu2O(111)surface:APeriodicDensityFunctionalTheoryStudy
Bao-ZhenSun,Wen-KaiChen*,Yi-JunXu*
JournalofChemicalPhysics,2009,131,174503-174510.
Selectedresearchpublicationsbefore2009
1.NanoarchitecturingofActivatedCarbon:FacileStrategyforChemicalFunctionalizationoftheSurfaceofActivatedCarbon
AdvancedFunctionalMaterials,2008,18,3613.
2.TunableGoldCatalystsforSelectiveHydrocarbonOxidationunderMildConditions
Nature,2005,437,1132.
3.AComparativeStudyontheLithium-IonStoragePerformancesofCarbonNanotubesandTube-in-TubeCarbonNanotubes
ChemSusChem,2010,3,343.
4.SelectiveConversionofCyclohexanetoCyclohexanolandCyclohexanoneUsingaGoldCatalystunderMildConditions
CatalysisLetters,2005,101,175.
5.ReactionPathwaysfortheAdditionsofTripletCarbene,Silylene,GermyleneandNitreneontotheDiamond(100)Surface:aTheoreticalInvestigation
JournalofPhysicalChemistryC,2007,111,3729.
6.OrganicFunctionalizationofDiamond(100)byAdditionReactionsofCarbene,Silylene,andGermylene:ATheoreticalPrediction
JournalofOrganicChemistry,2005,70,6089.
7.FunctionalizationofDiamond(100)byOrganicCycloadditionReactionsofNitrenes:ATheoreticalPrediction
JournalofOrganicChemistry,2005,70,7773.
8.PredictingFacileEpoxidationoftheDiamond(100)SurfacebyDioxiranesandSubsequentRing-OpeningReactionswithNucleophiles
JournalofPhysicalChemistryB,2006,110,6148.
9.OrganicFunctionalizationoftheSi(100)andGe(100)SurfacesbyCycloadditionsofCarbenesandNitrenes:aTheoreticalPrediction
JournalofPhysicalChemistryB,2006,110,3197.
10.TheCycloadditionsofVariousSubstitutedCarbenes,Silylenes,andGermylenesontotheDiamond(100)Surface:aTheoreticalExploration
JournalofPhysicalChemistryB,2006,110,13931.
11.OrganicCycloaddtionandComplexationofTransitionMetalOxideswithStructure-likeMaterials:Alkene,Diamond(100),FullereneandCarbonNanotube
Mini-ReviewsOrganicChemistry,2008,5,287.
12.TheoreticalStudyoftheHydroborationReactionofDisileneswithBorane
ChemicalPhysicsLetters,2006,421,36.
13.TheInteractionofN2withActiveSitesofGraphite:aTheoreticalStudy
ChemicalPhysicsLetters,2005,406,249.
14.TheInteractionofMolecularOxygenwithActiveSitesofGraphite:aTheoreticalStudy
ChemicalPhysicsLetters,2004,400,406.
15.TheInteractionofMolecularX2(X=F,ClandBr)withActivesitesofGraphite
ChemicalPhysicsLetters,2006,418,413.
16.TheInteractionofN2withActiveSitesofaSingle-WalledCarbonNanotube:aTheoreticalStudy
ChemicalPhysicsLetters,2005,412,439.
17.InvestigatingtheRoleofCationicVacancyontheMgO(001)DefectSurface:EmbeddedClusterModelsStudy
ChemicalPhysics,2005,315,267.
18.TheAdsorptionandDissociationofCl2ontheMgO(001)SurfacewithVacancies:EmbeddedClusterModelStudy
JournalChemicalPhysics,2004,120,8753.
19.COAdsorptiononMgO(001)SurfacewithOxygenVacancyanditsLow-CoordinatedSurfaceSites:EmbeddedClusterModelDensityFunctionalStudyEmployingChargeSelf-ConsistentTechnique
SurfaceScience2003,525,13.
获奖情况
其他