马贵军 - 上海科技大学 - 物质科学与技术学院

个人简介

2002年本科毕业于兰州大学化学化工学院，同年考入中国科学院大连化学物理研究所，师从李灿院士进行光催化降解硫化氢方面的研究，2009年初博士毕业后相继加入日本东京大学Prof.Domen及沙特阿布杜拉国王科技大学（KAUST）Prof.Takanabe课题组从事博士后研究，2012年6月受邀返回东京大学以主任研究员身份加入“人工光合成化学过程技术研究组合”，开展氧硫化物光催化及光电化学分解水研究；2017年4月加入上海科技大学物质科学与技术学院

研究领域

主要从事开发具有可见光响应的氧化物、硫（氧）化物及氮（氧）化物无机半导体材料，通过结晶优化，形貌控制以及表面修饰等实验手段将这一材料应用于太阳能光催化及光电化学分解水制氢反应，在注重催化剂效率的同时，兼顾成本控制及可行性分析，致力于开发出具有一定工业示范前景的光催化材料和反应。主要方向：（1）开发低价、高效的氧硫（氮）化物光催化材料的合成方法；（2）基于Z-体系理念实现光催化及光电化学分解水全反应；（3）无机半导体光催化分解水反应机理探索

近期论文

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35.MetalselenidesforphotocatalyticZ-schemepurewatersplittingmediatedbyreducedgrapheneoxide,S.Chen,T.Hisatomi,G.Ma,Z.Wang,Z.Pan,T.Takata,K.Domen,Chin.J.Cat.,2019,40,1668 34.Visible‐Light‐DrivenPhotocatalyticZ‐SchemeOverallWaterSplittinginLa5Ti2AgS5O7‐basedPowder‐SuspensionSystem,Z.Song,T.Hisatomi,S.Chen,Q.Wang,G.Ma,S.Li,X.Zhu,S.Sun,K.Domen,ChemSusChem,2019,12,1906 33.Efficienthydrogenevolutionon(CuInS₂)ₓ(ZnS)₁₋ₓsolidsolution-basedphotocathodesundersimulatedsunlight,J.Zhao,T.Minegishi,H.Kaneko,G.Ma,M.Zhong,M.Nakabayashi,M.Katayama,N.Shibata,T.Yamada,K.Domen,Chem.Comm.,2019,55,470 32.Metalselenidephotocatalystsforvisible-light-drivenZ-schemepurewatersplitting,S.Chen,G.Ma,Q.Wang,S.Sun,T.Hisatomi,T.Higashi,Z.Wang,M.Nakabayashi,N.Shibata,Z.Pan,T.Hayashi,T.Minegishi,T.Takata,K.Domen,J.Mat.Chem.A,2019,7,7415 31.Plate-likeSm2Ti2S2O5particlespreparedbyaflux-assistedone-stepsynthesisfortheevolutionofO2fromaqueoussolutionsbybothphotocatalyticandphotoelectrochemicalreactions,G.Ma,Y.Kuang,D.H.K.Murthy,T.Hisatomi,J.Seo,S.Chen,H.Matsuzaki,Y.Suzuki,M.Katayama,T.Minegishi,K.Seki,A.Furube,K.Domen,J.Phys.Chem.C,2018,122,13492 30.Efficientredox-mediator-freeZ-schemewatersplittingemployingoxysulfidephotocatalystsundervisiblelight,S.Sun,T.Hisatomi,Q.Wang,S.Chen,G.Ma,J.Liu,S.Nandy,T.Minegishi,M.Katayama,K.Domen,ACSCat.,2018,8,1690 29.EnhancementoftheH2evolutionactivityofLa5Ti2Cu(S1−xSex)5O7photocatalystsbycoloadingPtandNiScocatalysts,S.Nandy,T.Hisatomi,G.Ma,T.Minegishi,M.Katayama,K.Domen,J.Mat.Chem.A,2017,5,6106 28.Ultrastablelow-biaswaterspittingphotoanodesviaphotocorrosioninhibitionandin-situcatalystregeneration,Y.Kuang,Q.Jia,G.Ma,T.Hisatomi,T.Minegishi,H.Nishiyama,T.Yamada,A.Kudo,K.Domen,NatureEnergy,2016,2,16191 27.Visiblelight-drivenZ-schemewatersplittingusingoxysulfideH2evolutionphotocatalysts,G.Ma,S.Chen,Y.Kuang,S.Akiyama,T.Hisatomi,M.Nakabayashi,N.Shibata,M.Katayama,T.Minegishi,K.Domen,J.Phys.Chem.Lett.,2016,7,3892 26.Rationalizinglong-livedphoto-excitedcarriersinphotocatalyst(La5Ti2CuS5O7)intermsofone-dimensionalcarriertransport,Y.Suzuki,R.Singh,H.Matsuzaki,A.Furube,G.Ma,T.Hisatomi,K.Domen,K.Seki,Chem.Phys.,2016,476,9 25.PhotoanodicandphotocathodicbehavioursofLa5Ti2CuS5O7electrodesinwatersplittingreaction,G.Ma,Y.Suzuki,R.Singh,A.Iwanaga,Y.Moriya,T.Minegishi,J.Liu,T.Hisatomi,H.Nishiyama,M.Katayama,K.Seki,A.Furube,T.Yamada,K.Domen,Chem.Sci.,2015,6,4513 24.Site-selectivephotodepositionofPtonaparticulateSc-La5Ti2CuS5O7photocathode:evidenceforone-dimensionalchargetransfer,G.Ma,J.Liu,T.Hisatomi,T.Minegishi,Y.Moriya,M.Iwase,H.Nishiyama,M.Katayama,T.Yamada,K.Domen,Chem.Comm.,2015,51,4302 23.EnhancementofsolarhydrogenevolutionfromwaterbysurfacemodificationwithCdSandTiO2onporousCuInS2photocathodespreparedbyelectrodeposition-sulfurizationmethod,J.Zhao,T.Minegishi,L.Zhang,M.Zhong,Gunawan,M.Nakabayashi,G.Ma,T.Hisatomi,M.Katayama,S.Ikeda,N.Shibata,T.Yamada,K.Domen,Angew.Chem.Int.Ed.,2014,53,11808 22.ImprovingthephotoelectrochemicalactivityofLa5Ti2CuS5O7forhydrogenevolutionbyparticletransferanddoping,J.Liu,T.Hisatomi,G.Ma,A.Iwanaga,T.Minegishi,Y.Moriya,M.Katayama,J.Kubota,K.Domen,EES,2014,7,2239 21.Fabricationofphotocatalystpanelsandthefactorsdeterminingtheiractivityforwatersplitting,A.Xiong,G.Ma,K.Maeda,T.Takata,T.Hisatomi,T.Setoyama,J.Kubota,K.Domen,Cat.Sci.Tech.,2014,4,325 20.PhotoelectrochemicalconversionoftoluenetomethylcyclohexaneasanorganichydridebyCu2ZnSnS4-basedphotoelectrodeassemblies,P.Wang,T.Minegishi,G.Ma,K.Takanabe,Y.Satou,S.Maekawa,Y.Kobori,J.Kubota,K.Domen,JACS,2012,134,2469 19.Semiconductormonolayerassemblieswithorientedcrystalfaces,G.Ma,T.Takata,M.Katayama,F.Zhang,Y.Moriya,K.Takanabe,J.Kubota,K.Domen,CrystEngComm,2012,14,59 18.AhybridphotocatalyticsystemcomprisingZnSaslightharvesterandan[Fe2S2]hydrogenasemimicashydrogenevolutioncatalyst,F.Wen,X.Wang,L.Huang,G.Ma,J.Yang,C.Li,Chemsuschem,2012,5,849 17.PhotoelectrochemicalhydrogenproductiononCu2ZnSnS4/Mo-meshthin-filmelectrodespreparedbyelectroplating,G.Ma,T.Minegishi,D.Yokoyama,J.Kubota,K.Domen,Chem.Phys.Lett.,2011,501,619 16.PhotocatalyticH2evolutiononCdSloadedwithWS2ascocatalystundervisiblelightirradiation,X.Zong,J.Han,G.Ma,H.Yan,G.WuandC.Li,J.Phys.Chem.C,2011,115,12202 15.Enhancedvisible-Lightactivityoftitaniaviaconfinementinsidecarbonnanotubes,W.Chen,Z.Fan,B.Zhang,G.Ma,K.Takanabe,X.Zhang,Z.Lai,JACS,2011,133,14896 14.PhotocatalyticH2evolutiononMoS2/CdScatalystundervisiblelightirradiation,X.Zong,G.Wu,H.Yan,G.Ma,J.Shi,F.Wen,L.Wang,C.Li,J.Phys.Chem.C,2010,114,1963 13.H2evolutionfromwateronmodifiedCu2ZnSnS4photoelectrodeundersolarlight,D.Yokoyama,T.Minegishi,K.Jimbo,T.Hisatomi,G.Ma,M.Katayama,J.Kubota,H.Katagiri,K.Domen,Appl.Phys.Express,2010,3,101202 12.Preparation,characterizationandphotocatalyticperformanceofZn2-xGeO4-x-3yN2ycatalystsundervisiblelightirradiation,B.Ma,X.Zong,G.Ma,J.Yang,P.Ying,C.Li,Chem.Bull.,2010,6,556 11.PhotocatalytichydrogenproductiononCuInS2-ZnSsolidsolutionpreparedbysolvothermalmethod,G.Ma,Z.Lei,H.Yan,X.Zong,C.Li,Chin.J.Cat.,2009,30,73 10.Visible-light-drivenhydrogenproductionwithextremelyhighquantumefficiencyonPt–PdS/CdSphotocatalyst,H.Yan,J.Yang,G.Ma,G.Wu,X.Zong,Z.Lei,J.Shi,C.Li,J.Cat.,2009,266,165 9.VisiblelightdrivenH2productioninmolecularsystemsemployingcolloidalMoS2nanoparticlesascatalyst,X.Zong,Y.Na,F.Wen,G.Ma,J.Yang,D.Wang,Y.Ma,M.Wang,L.Sun,C.Li,Chem.Comm.,2009,30,4536 8.DirectsplittingofH2SintoH2andSonCdS-basedphotocatalystundervisiblelightirradiation,G.Ma,H.Yan,J.Shi,X.Zong,Z.Lei,C.Li,J.Cat.,2008,260,134 7.PhotocatalyticsplittingofH2Stoproducehydrogenbygas-solidphasereaction,G.Ma,H.Yan,X.Zong,B.Ma,H.Jiang,F.Wen,C.Li,Chin.J.Cat.,2008,29,313 6.EnhancementofphotocatalyticH2evolutiononCdSbyloadingMoS2ascocatalystundervisiblelightirradiation,X.Zong,H.Yan,G.Wu,G.Ma,F.Wen,L.Wang,C.Li，JACS,2008,130,7176 5.SuppressingtheCOformationviaanionadsorptiononPt/TiO2fortheH2productionfromthephotocatalyticreformingofmethanol,G.Wu,T.Chen,X.Zong,H.Yan,G.Ma,C.Li,J.Cat.,2008,253,225 4.KineticsofphotogeneratedelectronsinvolvedinphotocatalyticreactionofmethanolonPt/TiO2,T.Chen,G.Wu,Z.Feng,J.Shi,G.Ma,P.Ying,C.Li,Chin.J.Chem.Phys.,2007,20,483 3.MechanisticstudiesofphotocatalyticreactionofmethanolforhydrogenproductiononPt/TiO2byin-situFTIRandtime-resolvedIRspectroscopy,T.Chen,Z.Feng,G.Wu,J.Shi,G.Ma,P.Ying,C.Li,J.Phys.Chem.C,2007,111,8005 2.Sulfur-substitutedandzinc-dopedIn(OH)3:AnewclassofcatalystforphotocatalyticH2productionfromwaterundervisiblelightillumination,Z.Lei,G.Ma,M.Liu,W.You,H.Yan,G.Wu,T.Takata,M.Hara,K.Domen,C.Li,J.Cat.,2006,237,322 1.WaterreductionandoxidationonPt–Ru/Y2Ta2O5N2catalystundervisiblelightirradiation,M.Liu,W.You,Z.Lei,G.Zhou,J.Yang,G.Wu,G.Ma,G.Luan,T.Takata,M.Hara,K.Domen,C.Li,Chem.Comm.,2004,36,2192 Bookchapter: G.Ma,T.Hisatomi,K.Domen,“SemiconductorsforPhotocatalyticandPhotoelectrochemicalSolarWaterSplitting”,in“FromMoleculestoMaterials–PathwaytoArtificialPhotosynthesis”,SpringerPublisher,2015,pp1–56,ISBN978-3-319-13800-8