个人简历
主持国家基金1项(21203025,2012~2015年,结题)和福建省自然科学基金项目1项,作为学术骨干参与973项目子课题、中科院纳米先导项目子课题及国家自然科学基金项目多项。在J.Mater.Chem.(A)、Chem.Comm.、ACSAppl.Mater.Interfaces、Electrochem.Comm.、J.Phys.Chem.C.、Electrochim.Acta、JPowerSources等发表第一作者及通讯作者论文近30篇,申请专利3项;2009年以来,论文被引用逾1500次,H因子23;其中,第一作者论文1篇最高被引145次,1篇被NPGAsiaMaterials亮点评论1次,1篇为J.Mater.Chem.杂志月度阅读量排名前10论文。
研究领域
主要从事碳基材料及其复合物的制备及应用在锂离子电池、锂空气电池及超级电容等储能方面的研究,
近期论文
[1]LiJ.X.,LaiH.,FanB.Q.,GuanL.H.,HuangZ.G.*.UreameltelectrodepositionofRE-IG(RE=La,Sm,Gd;IG=Fe,Co,Ni)amorphousalloyfilms.J.Alloy.Comp.,2009,477,547.[2]LiJ.X.,WuCX,GuanLH.*.Lithiuminsertion/extractionpropertiesofnano-carbonmaterials,J.Phys.Chem.C.,2009,113(42),18431.[3]LiJ.X.,ZhaoY,GuanLH.*.Lithiumstorageinsingle-walledcarbonnanotubes,Electrochem.Comm.,2010,12,592.[4]LiJ.X.,ZhaoY.,WangN.,GuanL.H.*.AhighperformancecarrierforSnO2particlesusedinlithiumionbattery.Chem.Comm.,2011,47,5238.[5]LiJ.X.,WangN.,ZhaoY.,DingY.H.,GuanLH.*.MnO2nanoflakecoatedonmulti-walledcarbonnanotubesforrechargeablelithium-airbattery,Electrochem.Comm.,2011,13(7),698.[6]LiJ.X.,ZhaoY.,WangN.,DingY.H.,GuanL.H.*.EnhancedperformanceofaMnO2/Graphene-Sheetcathodeforlithiumionbatteriesusingsodiumalginateasabinder.J.Mater.Chem.,2012,22,13002.[7]LiJ.X.,ZhaoY.,DingY.H.,GuanL.H.*.Fe2O3nanoparticlescoatedonferrocene-encapsulatedsingle-walledcarbonnanotubesasstableanodematerialsforlong-termcycling,RSCAdvances,2012,2,4205.[8]LiJ.X.,ZouM.Z.,ZhaoY,LinY.B.,LaiH.,GuanLH.*,HuangZ.G.*,CoaxialMWNTs@MnO2confinedinconductingPPyforkineticallyefficientandlong-termlithiumionstorage.Electrochimica.Acta.,2013,111,165.[9]LiJ.X.,ZhaoY,WuC.X.,LaiH.,HuangZ.G,GuanLH.*.Recentprogressincarbon-basedcathodeforlithium-airbatterieswithorganicelectrolytesolution.ChinSciBull(ChinVer.,review),2013,58:3189.[10]LiJ.X.,ZouM.Z.,Zhao,Y.,HuangZ.G.*,GuanL.H.*.Asimpleintegrateddesignandmanufacturebyelectrospinningofstabilizedlithiumbatterytin-basedanodes.RSCAdvances,2013,3,19251.[11]LiJ.X.,ZouM.Z.,ChenL.Z.,HuangZ.G.*,GuanL.H.*.AnefficientbifunctionalcatalystofFe/Fe3CcarbonnanofibersforrechargeableLi-O2batteries.J.Mater.Chem.A.,2014,2,10634.[12]LiJ.X.,ZouM.Z.,WenW.W.,ZhaoY.,LinY.B.,HuangZ.G.*,GuanL.H.*,SpinelMFe2O4(M=Co,Ni)nanoparticlescoatedonmulti-walledcarbonnanotubesaselectrocatalystsforLi-O2batteries.J.Mater.Chem.A.,2014,2,10257.[13]LiJ.X.,ZhaoY.,ZouM.Z.,HuangZ.G.*,GuanL.H.*,AneffectiveintegrateddesignforenhancedcathodesofNifoam-supportedPt/CarbonnanotubesforLi-O2batteries.ACSAppl.Mater.Interfaces.,2014,6,12479.[14]LiJ.X.,WenW.W.,XuG.G.,ZouM.Z.,GuanLH.*,HuangZ.G.,Fe-addedFe3CcarbonnanofibersasanodeforLiionbatterieswithexcellentlow-temperatureperformanceElectrochimica.Acta.,2015,153,300.[15]LiJ.X.,WenW.W.,ZouM.Z.,GuanL.H.,HuangZ.G.*.MWNT-supportedbifunctionalcatalystofβ-FeOOHnanospindlesforenhancedrechargeableLi-O2batteries.J.Alloy.Comp.,2015,639,428.[16]ZouM.Z.,LiJ.X.*,WenW.W.,LinY.B.,LaiH.,HuangZ.G.*.Free-standinganodeofN-dopedcarbonnanofiberscontainingSnOxforhigh-performancelithiumbatteries.Mater.Res.Bull.,2014,60,868.[17]WenW.W.,ZouM.Z.,Feng,Q.,LiJ.X.*,GuanL.H.,LaiH.,HuangZ.G.*.Cuparticlesdecoratedpomegranate-structuredSnO2@Ccompositesasanodeforlithiumionbatterieswithenhancedperformance.Electrochimica.Acta.,2015,182,272.[18]WenW.W.,ZouM.Z.,Feng,Q.,LiJ.X.*,LaiH.,HuangZ.G.*.SnO2nanospheresamongGOandSWNTsnetworksasanodeforenhancedlithiumstorageperformances.J.Ener.Chem.,2016,25,45.[19]ZouM.Z.,WenW.W.,LiJ.X.*,LaiH.,HuangZ.G.*.ElectricCunanoparticlesdecoratedV2O5spheresashighperformancecathodesforlithiumionbatteries.J.AlloysCompounds.,2016,681,268.[20]ZouM.Z.,WangL.L.,LiJ.X.*,GuanL.H.,HuangZ.G.*.EnhancedLi-ionbatteryperformancesofyolk-shellFe3O4@CanodeswithFe3Ccatalyst.Electrochimica.Acta.,2017,233,85.[21]LiJ.X.,HuangW.J.,ZouM.Z.,WuC.X.,ZhaoY.,GuanL.H.*,HuangZ.G.*.Ironencapsulatedinsingle-walledcarbonnanotubesforobtainingtheevidenceofimprovedcoulombicefficiencyandimprovingthelithiumbatteryperformanceofZnOanodes.RSCAdvances,2018,8,11566
