个人简历:
教育背景
Ø 博士2008.01-2011.02美国德州大学达拉斯分校材料科学与工程
Ø 访问2006.06-2007.12美国德州大学阿灵顿分校物理学
Ø 硕士2002.09-2005.12中国中国科学院固体物理研究所学士凝聚态物理
Ø 学士1998.09-2002.06中国河南师范大学物理学
工作经历
Ø 教授2013.07-现在 中国 南开大学
Ø 高级工程师2012.09-2013.06美国 万国半导体公司
Ø 客座教授2012.08-现在 美国 德州大学达拉斯分校材料与工程系
Ø 访问学者2012.06-2013.06 美国 斯坦福大学电子工程学院
Ø 研究员2011.06-2012.09 美国 Nanostellar Inc.
项目/论文/专利
科研项目:
国家自然科学基金面上项目,21975136,基于过渡金属莫来石电催化剂的理性设计、2020/01-2023/12、主持。
国家重点研发计划(高功率低成本规模超级电容器的基础科学与前瞻技术研究项目),2016/07-2020/12、骨干。
国家自然科学基金面上项目,基于莫来石材料的氮氧污染物净化的催化研究、2015/01-2019/12、主持。
国家自然科学基金青年项目,11304161、III-V族半导体表面和界面的氧化和钝化研究、2014/01-2016/12、主持。
天津市自然科学基金面上项目、13JCYBJC41100、半导体异质结在光催化应用中的研究、2013/10-2016/09、主持。
南开大学百名青年学科带头人,2013-2016,主持。
2017年入选天津市首届杰出青年基金,基于锰基材料的大气脱硝催化剂的理性设计研究,17JCJQJC45100,主持。
2018年入选天津市131人才计划第一层次人选,2019/01-2020/12,主持。
2018年天津市重点研发计划,满足移动源柴油机国VI标准排放后处理装置研发与应用,子课题,2019/01-2020/12。
科研论文:
1. WeichaoWang;GeoffreyMcCool;NeetiKapur;GuangYuan;BinShan;MattNguyen;UschiM.Graham;BurtronH.Davis;GaryJacobs;KyeongjaeCho;Xianghong(Kelly)Hao;Mixed-PhaseOxideCatalystBasedonMn-Mullite(Sm,Gd)Mn2O5forNOOxidationinDieselExhaust,Science,2012,337:832-835(影响因子:47.73);
2. LiWang;WuxingHua;XiangWan;ZeFeng;ZhonghaoHu;HuanLi;JuntaoNiu;LinxiaWang;AnshengWang;JieyuLiu;XiuyaoLang;GengWang;WeifangLi;QuanhongYang;WeichaoWang;DesignRulesofaSulfurRedoxElectrocatalystforLithium‐sulfurBatteries,AdvancedMaterials,2022,EarlyView:2110279(1-12)(影响因子:30.85);
3. ChunningZhao;XilinZhang;MengYu;AnshengWang;LinxiaWang;LinaXue;JieyuLiu;ZongxianYang;WeichaoWang;CooperativeCatalysistowardOxygenReductionReactionunderDualCoordinationEnvironmentsonIntrinsicAMnO3-TypePerovskitesviaRegulatingStackingConfigurationsofCoordinationUnits,AdvancedMaterials,2020,32(50):2006145(1-10)(影响因子:30.85);
4. JingfangZhang;JieyuLiu;LifeiXi;YifuYu;NingChen;ShuhuiSun;WeichaoWang;KathrinM.Lange;BinZhang;Single-AtomAu/NiFeLayeredDoubleHydroxideElectrocatalyst:ProbingtheOriginofActivityforOxygenEvolutionReaction,JournaloftheAmericanChemicalSociety,2018,11(140):3876-3879(影响因子:15.42);
5. ZhiwenGao;JieyuLiu;XueminChen;JingMao;HuiLiu;TianMa;LanLi;WeichaoWang;XiwenDu;EngineeringNiO/NiFeLDHIntersectiontoBypassScalingRelationshipforOxygenEvolutionReactionviaDynamicTridimensionalAdsorptionofIntermediates,AdvancedMaterials,2019,31(11):1804769(1-8)(影响因子:30.85);
6. AnqiDong;ShanGao;XiangWan;LinxiaWang;TongZhang;LiWang;XiuyaoLang;WeichaoWang;LabileOxygenPromotionoftheCatalyticOxidationofAcetoneoveraRobustTernaryMn-basedMulliteGdMn2O5,AppliedCatalysisB:Environmental,2020,271:118932(1-10)(影响因子:19.50);
7. TongZhang;XiuyaoLang;AnqiDong;XiangWan;ShanGao;LiWang;LixiaWang;WeichaoWang;DifferenceofOxidationMechanismbetweenLightC3–C4AlkaneandAlkeneoverMulliteYMn2O5OxidesCatalyst,ACSCatalysis,2020,10(13):7269-7282(影响因子:13.08);
8. TongZhang;HuiLi;ZhiYang;FengrenCao;LiangLi;HaijunChen;HuiLiu;KaXiong;JieWu;ZhanglianHong;Weichao;ElectrospunYMn2O5Nanofibers:AHighlyCatalyticActivityforNOOxidation,AppliedCatalysisB:Environmental,2019,247:133-141(影响因子:19.50);
9. XueruiWang;JieyuLiu;ZiweiLiu;WeichaoWang;JunLuo;XiaopengHan;XiwenDu;ShizhangQiao;JingYang;IdentifyingtheKeyRoleofPyridinic-N-CoBondinginSynergisticElectrocatalysisforReversibleORR/OER,AdvancedMaterials,2018,30(23):1800005(1-10)(影响因子:30.85);
10. LiWang;HuiLi;JieyuLiu;XiuyaoLang;WeichaoWang;LabileOxygenParticipantAdsorbateEvolvingMechanismtoEnhanceOxygenReductioninSmMn2O5withDouble-coordinatedCrystalFields,JournalofMaterialsChemistryA,2020,9(1):380-389(影响因子:12.73);
11. GaixiaZhang;DavidSebastian;XilinZhang;QiliangWei;CarmeloLoVecchio;JihaiZhang;VincenzoBaglio;WeichaoWang;ShuhuiSun;AntoninoS.Arico;AnaC.Tavares;EngineeringofaLow-Cost,HighlyActive,andDurableTantalate-GrapheneHybridElectrocatalystforOxygenReduction,AdvancedEnergyMaterials,2020,10(24):2000075(1-11)(影响因子:29.37);
12. ChunningZhao;MengYu;ZhiYang;JieyuLiu;ShaohuaChen;ZhanglianHong;HaijunChen;WeichaoWang;OxygenReductionReactionCatalyticActivityEnhancementoverMulliteSmMn2O5viaInterfacingwithPerovskiteOxides,NanoEnergy,2018,51:91-101(影响因子:17.88);
13. JieyuLiu;HuiLiu;HaijunChen;XiwenDu;BingZhang;ZhanglianHong;ShuhuiSun;WeichaoWang;ProgressandChallengesTowardtheRationalDesignofOxygenElectrocatalystsBasedonaDescriptorApproach,AdvancedScience,2020,7(1):1901614(1-15)(影响因子:12.73);
14. LijingWang;XiaolongYao;DaChen;JinWang;ZhenzhouZhang;JieyuLiu;TianquanLin;Wei-huaWang;ZhanglianHong;FuqiangHuang;WeichaoWang;DesignRulesofPseudocapacitiveElectrodeMaterials:IonAdsorption,Diffusion,andElectronTransmissionoverPrototypeTiO2,ScienceChina-Materials,2021,65:391-399(影响因子:8.3);
15. DaliLiu;ChanghongWang;YihuYu;BohangZhao;WeichaoWang;YonghuaDu;BingZhang;UnderstandingtheNatureofAmmoniaTreatmenttoSynthesizeOxygenVacancy-EnrichedTransitionMetalOxides,Chem,2019,5(2):376-389(影响因子:22);
16. Y.Li,X.Zhang,H.Li,H.Yoo,X.Chi,Q.An,J.Liu,M.Yu,W.Wang*,Y.Yao*,Mixed-phaseMulliteElectrocatalystforpH-neutralOxygenReductioninMagnesium-airBatteries,NanoEnergy,27,8(2016)(影响因子:17.88);
17. Z.Wu,C.Wang,B.Zhao,J.Dong,F.Lu,W.HWang,W.Wang,G.Wu,J.Cui,ANovelSemi-ConductiveCu-OrganicFrameworkwithTwoTypesofPhotcatalyticActivity,Angew.Chem.Int.Edit.,127,1(2015)(影响因子:15.33);
18. FanYu,LeiDu,GaixiaZhang,FengmeiSu,WeichaoWang,andShuhuiSun,ElectrodeEngineeringbyAtomicLayerDepositionforSodium-IonBatteries:FromTraditionaltoAdvancedBatteries,Adv.Funct.Mater.,1906890(2019)(影响因子:16.8);
19. LuluWen,XilinZhang,JieyuLiu,XinyangLi,ChangchangXing,XianjunLyu,WeipingCai,WeichaoWang,andYueLi,Cr-DopantInducedBreakingofScalingRelationsinCoFeLayeredDoubleHydroxidesforImprovementofOxygenEvolutionReaction,Small,1902373(2019)(影响因子:13.2);
20. ChenlongDong,XilinZhang,JieXu,RuiSi,JunSheng,JunLuo,ShaoningZhang,WujieDong,GuobaoLi,WeichaoWang,FuqiangHuang,Ruthenium‐DopedCobalt–ChromiumLayeredDoubleHydroxidesforEnhancingOxygenEvolutionthroughRegulatingChargeTransfer,Small,16,5(2020)(影响因子:13.2).
讲授课程:
本科生:《固体半导体物理》、《创新研究与训练》
社会兼职:
2016.08-现在 中国材料研究学会计算材料学分会第三届委员会委员
2012/10–2018.12德州大学,材料科学与工程系,客座教授(兼职)
获奖情况:
1. 天津市优秀博士学位指导教师(2019)
2. 南开大学优秀博士学问指导教师(2019,2021)
3. 唐立新优秀教师奖(优秀学者)(2021)
4. 入选Comp.Mater.Sci.2019年度Risingstar
