The Cao Group

78.Chen,D.;Gao,X.; Liu,H.;Zhang,W.*; Cao R.*,Nickel Selenide Derived from [Ni(en)3](SeO3) Complex for Efficient Electrocatalytic Overall Water Splitting.Journal.Electrochem.2019,25,553-561.  

77.Yuan,H.;Wang,Y.;Yang,C.;Liang,Z.;Chen,M.;Zhang,W.;Zheng,H.*;Cao,R.*,Ultra-thin Co-Fe layered double hydroxide hollow nanocubes for efficient electrocatalytic water oxidation.ChemPhysChem,2019,20,2964-2967.  

76.Huo,M.;Wang,B.;Zhang,C.;Ding,S.;Yuan,H.;Liang,Z.;Qi,J.;Chen,M.;Xu,Y.;Zhang,W.;Zheng,H.*;Cao,R.*,Chem.Eur.J.,2019,25,12780-12788.  

75.Gao,X.;Chen,D.;Qi,J.;Li,F.;Song,Y.;Zhang,W.*;Cao,R.*,NiFe oxalate nanomesh array with homogenous doping of Fe for electrocatalytic water oxidation.Small,2019,15,1904579.  

74.Qi,J.;Chen,M.;Zhang,W.*;Cao,R.*,Hierarchical-dimensional material: A Co(OH)2 superstructure with hybrid dimensions for enhanced water oxidation.ChemCatChem,2019,11,5969-5975.  

73.Xie,L.;Li,X.;Wang,B.;Meng,J.;Lei,H.;Zhang,W.;Cao,R.*,Molecular engineering of a 3D self-supported electrode for oxygen electrocatalysis in neutral media.Angew.Chem.Int.Ed.,2019,58,18883-18887.  

72.Xu,Y.;Huang,Z.;Wang,B.;Liang,Z.;Zhang,C.;Zheng,H.*;Cao, R.*,A two-dimensional multi-shelled metal–organic framework and its derived bimetallic N-doped porous carbon for electrocatalytic oxygen reduction.Chem.Commun.,2019,55,14805-14808.  

71.Xu,G.;Lei,H.;Zhou,G.;Zhang,C.;Xie,L.;Zhang,W.;Cao,R.*,Boosting hydrogen evolution by using covalent frameworks of fluorinated cobalt porphyrins supported on carbon nanotubes.Chem.Commun.,2019,55,12647-12650.  

70.Qi,J.;Zhang,W.*;Cao,R.*,A new strategy for solar-to-hydrogen energy conversion: photothermal-promoted electrocatalytic water splitting.ChemElectroChem,2019,6,2762-2765.  

69.Liang,Z.;Zheng,H.*;Cao,R.*,Importance of electrocatalyst morphology for the oxygen reduction reaction.ChemElectroChem,2019,6,2600-2614.  

68.Huo,M.;Yang,Z.;Yang,C.;Gao,Z.;Qi,J.;Liang,Z.;Liu,K.;Chen,H.;Zheng,H.*;Cao,R.*,Hierarchical Zn-doped CoO nanoflowers for electrocatalytic oxygen evolution reaction.ChemCatChem,2019,11,1480-1486.  

67.Lei, H.;Li,X.;Meng,J.;Zheng,H.;Zhang,W.;Cao,R.*,Structure effects of metal corroles on energy-related small molecule activation reactions.ACS Catal.,2019,9,4320-4344.  

66.Meng,J.;Lei,H.;Li,X.;Qi,J.;Zhang,W.;Cao,R.*,Attaching cobalt corroles onto carbon nanotubes: verification of four-electron oxygen reduction by mononuclear cobalt complexes with significantly improved efficiency.ACS Catal.,2019,9,4551-45  

65.Liu,Y.;Han,Y.;Zhang,Z.;Zhang,W.;Lai,W.;Wang,Y.;Cao,R.*,Low overpotential water oxidation at neutral pH catalyzed by a copper(II) porphyrin.Chem.Sci.,2019,10,2613-2622.[Highly Cited Paper]  

64.Li,H.;Li,X.;Lei,H.;Zhou,G.;Zhang,W.;Cao,R.*,Convenient immobilization of cobalt corroles on carbon nanotubes through covalent bonds for electrocatalytic hydrogen and oxygen evolution reactions.ChemSusChem,2019,12,801-806.  

63.Wang,N.;Lei,H.;Zhang,Z.;Li,J.;Zhang,W.;Cao,R.*,Electrocatalytic hydrogen evolution with gallium hydride and ligand-centered reduction.Chem.Sci.,2019,10,2308-2314.  

62.Liang,Z.;Zhang,C.;Xu,Y.;Zhang,W.;Zheng,H.*;Cao,R.*,Dual tuning of ultrathin α‑Co(OH)2 nanosheets by solvent engineering and coordination competition for efficient oxygen evolution.ACS Sustainable Chem.Eng.,2019,7,3527-3535.  

61.Liang,Z.;Yang,Z.;Duang,J.;Qi,J.;Yuan,H.;Gao,J.;Zhang,W.;Zheng, H.*;Cao,R.*,Hollow bimetallic zinc cobalt phosphosulfides for efficient overall water splitting.Chem.Eur.J.,2019,25,621-626.  

60.Liu,H.;Gao,X.;Yao,X.;Chen,M.;Zhou,G.;Qi,J.;Zhao,X.;Wang,W.*;Zhang,W.*;Cao,R.*,Manganese(II) phosphate nanosheet assembly with native out-of-plane Mn centres for electrocatalytic water oxidation.Chem.Sci.,2019,10,191-197.