主要成就研究方向
1、二维纳米材料电学行为的调控及其能源器件构建
2、机敏无机功能材料及其器件的设计与构建
3、电化学与燃料电池领域?
论文专著1)Designofvanadiumoxidestructureswithcontrollableelectricalproperties...-Chem.Soc.Rev.-2013-
2)UltrathinNanosheets:GiantMoistureResponsivenessofVS2...-Adv.Mater-2012-
3)Hydrogen-IncorporatedTiS2UltrathinNanosheetswithUltrahighConductivityforStamp-TransferrableElectrodes-JournaloftheAmericanChemicalSociety-2013-
4)MetallicFew-layeredVS2UltrathinNanosheets….-JournaloftheAmericanChemicalSociety-2011-
5)Hydrogen-IncorporationStabilizationofMetallicVO2(R)…-JournaloftheAmericanChemicalSociety-2011-
6)SyntheticHaggiteV4O6(OH)4Nanobelts:OxyhydroxideasaNewCatalogof…….-JournaloftheAmericanChemicalSociety-2009-
7)DirectConfined-spaceCombustiontoMonoclinicVanadiumDioxides……-AngewandteChemieInternationalEdition.-2010-
8)Room-temperatureFerromagneticSilverVanadiumOxide(Ag1.2V3O8)……-AdvancedFunctionalMaterials.-2010-
9)NewVanadiumOxideNanostructures:ControlledSynthesisand……-AdvancedMaterials-2010-
10)PromisingVanadiumOxidesNanostructures:FromEnergyStoragetoEnergySaving…...-Energy&EnvironmentalScience.-2010-
11)NewPhaseHollandite-typeVOOHQuadrangularNanorods.....-Chem.Comm.-2010-?
科研成果2021年8月,中国科学技术大学化学与材料科学学院吴长征教授实验课题组和工程科学学院近代力学系吴恒安教授理论计算课题组合作,合成了超小尺寸的铂基金属间化合物电催化剂,基于该催化剂组装的质子交换膜燃料电池在3万次循环耐久性测试后仍然能维持81.5%的放电功率,实现燃料电池的高功率放电和长久循环稳定性,并揭示了电池内三相界面的传质机理。相关成果日前发表在《美国科学院院报》上。[1]
