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福州大学化学化工学院研究生导师简介-徐艺军

福州大学 免费考研网/2014-04-16



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2009.1-至今福州大学闽江学者特聘教授

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1.本科生《教授科研导论讲座》
2.本科生《环境化学导论》



科研简介2009年1月,作为闽江学者特聘教授引进到福州大学工作。2003-2006年,在英国Cardiff大学攻读多相催化专业博士,师从于英国皇家科学院院士,J.Catal.副主编GrahamJ.Hutchings教授,主要研究方向为负载型贵金属催化剂选择性氧化烷烃和烯烃及其反应机理研究。2007-2009年,在德国马普协会Fritz-Haber研究所RobertSchlog教授研究小组从事博士后研究工作,主要研究方向为先进材料的制备及其在锂离子电池、污水中重金属离子吸附和选择性氧化的应用研究。

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


科研项目作为项目负责人,目前承担的科研项目主要有:
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2012

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.




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