个人简历

1、教育经历
2005/09-2009/07，山东大学，化学专业，学士；
2009/09-2014/06，山东大学，无机化学专业，博士。
2、工作经历
2017/01-至今，中国石油大学（华东），副教授。
2016/09-2016/12，中国石油大学（华东），讲师。
2014/07-2016/08，中国石油大学（华东），师资博士后。
3、招生方向
招生方向：化学工程
5、主持项目
1.山东省重点研发计划，GG201709270042，过渡金属碳酸盐材料的电化学储钠机制与性能调控研究，2018/01-2019/12。
2.中央高校基本科研业务费，17CX02039A，膦酸MOF碳化制备磷掺杂多孔碳材料及其钠电负极性能、机制研究，2017/01-2019/12。
3.山东省优秀中青年科学家科研奖励基金，BS2015CL005，新型钠离子电池负极金属氧化物/有序多孔碳复合材料的制备及性能研究，2015/07-2017/07。
4.中国博士后科学基金面上资助一等资助，2015M570618，金属氧化物/有序多孔碳复合材料的制备及储钠性能研究，2014/07-2016/07。
5.青岛市博士后人员应用研究项目资助，2015233，基于金属有机框架化合物（MOF）的多孔含氮碳材料储锂性能研究，2014/07-2016/07。

研究领域

主要从事化学电源中电极材料的合成与组装，包括锂离子电池、钠离子电池及钾离子电池正负极材料的设计、制备与应用基础研究。在Adv.Funct.Mater.、Chem.Mater.、J.Mater.Chem.A、ACSAppl.Mater.Inter.、J.PowerSources、ElectrochimicaActa、Chemelectrochem等期刊发表SCI论文三十余篇，总引用次数达到1000余次，H因子14。

近期论文

(1).Li,L.;He,J.;Wang,Y.;Lv,X.;Gu,X.;Dai,P.;Liu,D.;Zhao,X.*,Metal–organicframeworks:apromisingplatformforconstructingnon-nobleelectrocatalystsfortheoxygen-reductionreaction,JournalofMaterialsChemistryA,2019,7(5),1964-1988.
(2).Yan,L.;Jiang,H.;Wang,Y.;Li,L.;Gu,X.;Dai,P.;Liu,D.;Tang,S.-F.;Zhao,G.;Zhao,X.*,One-stepandscalablesynthesisofNi2PnanocrystalsencapsulatedinN,P-codopedhierarchicallyporouscarbonmatrixusingabipyridineandphosphonatelinkednickelmetal–organicframeworkashighlyefficientelectrocatalystsforoverallwatersplitting,ElectrochimicaActa,2019,297,755-766.
(3).Zhang,L.;Gu,X.*;Yan,C.;Zhang,S.;Li,L.;Jin,Y.;Zhao,S.;Wang,H.;Zhao,X.*,TitanosilicateDerivedSiO2/TiO2@CNanosheetswithHighlyDistributedTiO2NanoparticlesinSiO2MatrixasRobustLithiumIonBatteryAnode,ACSappliedmaterials&interfaces,2018,10(51),44463-44471.
(4).Dai,P.;Xue,Y.;Zhang,S.;Cao,L.;Tang,D.;Gu,X.;Li,L.;Wang,X.;Jiang,X.;Liu,D.,DerivedFlexible3DInterconnectedCarbonMicrofiberNetworkswithControllablePoreSizesforSupercapacitors,ACSappliedmaterials&interfaces,2018,10(43),37046-37056.
(5).Liu,D.;Zhu,H.;Zhao,J.;Pan,L.;Dai,P.;Gu,X.;Li,L.;Liu,Y.;Zhao,X.*,SynthesisofMesoporousγ-Al2O3withSpongyStructure:In-SituConversionofMetal-OrganicFrameworksandImprovedPerformanceasCatalystSupportinHydrodesulfurization,Materials,2018,11(7),1067.
(6).Yan,C;GuX.*;ZhangL.;Wang,Y.;Yan,L.;Liu,D.;Li,L.;Dai,P.;Zhao,X.*,HighlydispersedZnnanoparticlesconfinedinnanoporouscarbonnetwork:promisinganodematerialsforsodiumandpotassiumionbatteries,JournalofMaterialsChemistryA,2018,6,17371.
(7).Wang,Y.;Li,L.;Yan,L.;Gu,X.;Dai,P.;Liu,D.;Bell,J.G.;Zhao,G.;Zhao,X.;Thomas,K.M.,Bottom-UpFabricationofUltrathin2DZrMetal–OrganicFrameworkNanosheetsthroughaFacileContinuousMicrodropletFlowReaction,ChemistryofMaterials,2018,30(9),3048-3059.
(8).Yan,L.;Jiang,H.;Xing,Y.;Wang,Y.;Liu,D.;Gu,X.;Dai,P.;Li,L.;Zhao,X.,Nickelmetal–organicframeworkimplantedongrapheneandincubatedtobeultrasmallnickelphosphidenanocrystalsactsasahighlyefficientwatersplittingelectrocatalyst,JournalofMaterialsChemistryA,2018,6,1682.
(9).Liu,D.;Yan,L.;Li,L.;Gu,X.;Dai,P.;Yang,L.;Liu,Y.;Liu,C.;Zhao,G.;Zhao,X.,Impactofmoderativeligandhydrolysisonmorphologyevolutionandthemorphology-dependentbreathingeffectperformanceofMIL-53(Al),CrystEngComm,2018,20(15),2102-2111.
(10).Liu,D.;Li,L.;Xu,H.;Dai,P.;Wang,Y.;Gu,X.;Yan,L.;Zhao,G.;Zhao,X.,BoostingORRCatalyticActivitybyIntegratingPyridine‐NDopants,aHighDegreeofGraphitization,andHierarchicalPoresintoaMOF‐DerivedN‐DopedCarboninaTandemSynthesis,Chemistry–AnAsianJournal,2018,13(10),1318-1326.
(11).Gu,X.;Yan,C.;Yan,L.;Cao,L.;Niu,F.;Liu,D.;Dai,P.;Li,L.;Yang,J.;Zhao,X.,Carbonates(bicarbonates)/reducedgrapheneoxideasanodematerialsforsodium-ionbatteries,JournalofMaterialsChemistryA,2017,5(47),24645-24650.
(12).Zhao,X.*;Yan,C.;Gu,X.*;Li,L.;Dai,P.;Li,D.;Zhang,H.,UltrafineTiO2NanoparticlesConfinedinN-DopedPorousCarbonNetworksasAnodesofHigh-PerformanceSodium-IonBatteries,ChemElectroChem,2017,4(6),1516-1522.
(13).Yan,L.;Cao,L.;Dai,P.;Gu,X.;Liu,D.;Li,L.;Wang,Y.;Zhao,X.,Metal‐OrganicFrameworksDerivedNanotubeofNickel–CobaltBimetalPhosphidesasHighlyEfficientElectrocatalystsforOverallWaterSplitting,AdvancedFunctionalMaterials,2017,27(40),1703455.
(14).Yan,L.;Dai,P.;Wang,Y.;Gu,X.;Li,L.;Cao,L.;Zhao,X.,InSituSynthesisStrategyforHierarchicallyPorousNi2PPolyhedronsfromMOFsTemplateswithEnhancedElectrochemicalPropertiesforHydrogenEvolution,ACSAppliedMaterials&Interfaces,2017,9(13),11642-11650.
(15).Wang,Y.;Li,L.;Dai,P.;Yan,L.;Cao,L.;Gu,X.;Zhao,X.,Missing-nodedirectedsynthesisofhierarchicalporesonazirconiummetal–organicframeworkwithtunableporosityandenhancedsurfaceacidityviaamicrodropletflowreaction,JournalofMaterialsChemistryA,2017,5(42),22372-22379.
(16).Li,L.;Dai,P.;Gu,X.;Wang,Y.;Yan,L.;Zhao,X.,Highoxygenreductionactivityonametal–organicframeworkderivedcarboncombinedwithhighdegreeofgraphitizationandpyridinic-Ndopants,JournalofMaterialsChemistryA,2017,5(2),789-795.
(17).Wang,Y.;Li,L.;Yan,L.;Cao,L.;Dai,P.;Gu,X.;Zhao,X.,Continuoussynthesisforzirconiummetal-organicframeworkswithhighqualityandproductivityviamicrodropletflowreaction,ChineseChemicalLetters,2017,https://doi.org/10.1016/j.cclet.2017.09.057.
(18).Gu,X.;Dai,P.;Li,L.;Li,J.;Li,D.;Zhang,H.;Zhao,X.,PorousCarbonPolyhedronswithHigh‐LevelNitrogen‐DopingforHigh‐PerformanceSodium‐IonBatteryAnodes,ChemistrySelect,2016,1(20),6442-6447.
(19).Gu,X.;Li,L.;Wang,Y.;Dai,P.;Wang,H.;Zhao,X.,HierarchicaltubularstructuresconstructedfromrutileTiO2nanorodswithsuperiorsodiumstorageproperties,ElectrochimicaActa,2016,211,77-82.
(20).Li,L.;Wang,Y.;Gu,X.;Yang,Q.;Zhao,X.,IncreasingtheCO2/N2SelectivitywithaHigherSurfaceDensityofPyridinicLewisBasicSitesinPorousCarbonDerivedfromaPyridyl‐Ligand‐BasedMetal–OrganicFramework,Chemistry–AnAsianJournal,2016,11(13),1913-1920.
(21).Gu,X.;Wang,Y.;Yan,L.;Li,L.;Dai,P.;Wang,H.;Zhao,X.,Metal-organicFrameworksDerivedCoS2-Co/N-dopedPorousCarbonwithExtremelyHighElectrocatalyticStabilityfortheOxygenReductionReaction,Int.J.Electrochem.Sci,2016,11,9575-9584.
(22).Gu,X.;Yue,J.;Chen,L.;Liu,S.;Xu,H.;Yang,J.;Qian,Y.;Zhao,X.,CoaxialMnO/N-dopedcarbonnanorodsforadvancedlithium-ionbatteryanodes,JournalofMaterialsChemistryA,2015,3(3),1037-1041.
(23).Gu,X.;Yue,J.;Li,L.;Xue,H.;Yang,J.;Zhao,X.,GeneralsynthesisofMnOx(MnO2,Mn2O3,Mn3O4,MnO)hierarchicalmicrospheresaslithium-ionbatteryanodes,ElectrochimicaActa,2015,184,250-256.
(24).Yue,J.;Gu,X.;Jiang,X.;Chen,L.;Wang,N.;Yang,J.;Ma,X.,Coaxialmanganesedioxide@N-dopedcarbonnanotubesassuperioranodesforlithiumionbatteries,ElectrochimicaActa,2015,182,676-681.
(25).Chen,L.;Gu,X.;Jiang,X.;Wang,N.;Yue,J.;Xu,H.;Yang,J.;Qian,Y.,Hierarchicalvanadiumpentoxidemicroflowerswithexcellentlong-termcyclabilityathighratesforlithiumionbatteries,JournalofPowerSources,2014,272,991-996.
(26).Gu,X.;Chen,L.;Liu,S.;Xu,H.;Yang,J.;Qian,Y.,Hierarchicalcore–shellα-Fe2O3@Cnanotubesasahigh-rateandlong-lifeanodeforadvancedlithiumionbatteries,JournalofMaterialsChemistryA,2014,2(10),3439-3444.
(27).Yue,J.;Gu,X.;Chen,L.;Wang,N.;Jiang,X.;Xu,H.;Yang,J.;Qian,Y.,GeneralsynthesisofhollowMnO2,Mn3O4andMnOnanospheresassuperioranodematerialsforlithiumionbatteries,JournalofMaterialsChemistryA,2014,2(41),17421-17426.
(28).Wang,N.;Xu,H.;Chen,L.;Gu,X.;Yang,J.;Qian,Y.,AgeneralapproachforMFe2O4(M=Zn,Co,Ni)nanorodsandtheirhighperformanceasanodematerialsforlithiumionbatteries,JournalofPowerSources,2014,247,163-169.
(29).Gu,X.;Chen,L.;Ju,Z.;Xu,H.;Yang,J.;Qian,Y.,ControlledGrowthofPorousα‐Fe2O3Branchesonβ‐MnO2NanorodsforExcellentPerformanceinLithium‐IonBatteries,AdvancedFunctionalMaterials,2013,23(32),4049-4056.
(30).Gu,X.;Li,X.;Xu,L.;Xu,H.;Yang,J.;Qian,Y.,SynthesisofSpinelLiNixMn2-xO4(x=0,0.1,0.16)andTheirHighRateCharge-DischargePerformances,Int.J.Electrochem.Sci,2012,7,2504-2512.
(31).Wang,L.;Wei,H.;Fan,Y.;Gu,X.;Zhan,J.,One-dimensionalCdS/α-Fe2O3andCdS/Fe3O4heterostructures:epitaxialandnonepitaxialgrowthandphotocatalyticactivity,TheJournalofPhysicalChemistryC,2009,113(32),14119-14125.