南大风华

    南大风华

    邹志刚


                   

    基本简介

    日本东京大学理学博士,南京大学物理学和材料学博士生导师,2015年12月7日入选中国科学院院士。世界科学院院士。国家重点基础研究发展计划“973”项目首席科学家,教育部创新团队负责人,中国光化学及光催化专业委员会主任委员,总装备部“国民核生化灾害防护国家重点实验室”学术负责人,中国氢能源及燃料电池产业创新战略联盟战略指导委员会委员,中国空间技术研究空间站科学技术实验科学委员会共同主席,中国空间技术研究太空探索实验科学委员会共同主席。兼任日本北海道大学特任教授和日本国家材料研究所(NIMS)客座研究员。现为南京大学环境材料与再生能源研究中心主任,江苏省纳米技术重点实验室主任,南京大学昆山创新研究院院长。

    长期从事光催化材料的设计、制备、反应机理及其应用的基础研究。在Nature、PRL、Advanced Materials、Angew Chem Int Ed、JACS等一流国际期刊发表SCI科学论文600余篇,他引20148余次。获国家发明专利77项、美国专利1项、日本专利2项,7项发明专利已成功进行产业化转化。2012、2016年获江苏省科学技术一等奖,2014年获得国家自然科学二等奖。2018年获得日内瓦国际发明展金奖及阿卜杜拉国王大学特别奖。 

     研究领域太阳能分解水制氢、光催化还原CO2、光催化环境净化、薄膜太阳电池、燃料电池、白光照明材料和器件、低碳社会与能源发展。

    发表论文


    1.Z. Zou, J. Ye, K. Sayama and H. Arakawa, “Direct splitting of water under visible light irradiation with an oxide semiconductor photocatalyst”, Nature, 414, 625, 2001. 

    2. Z. Zou, J. Ye, and H. Arakawa, “Preparation, structural and optical properties of a new class of compounds, Bi2MNbO7 (M=Al, Ga, In)”, Materials Science and Engraining B, 79, 83, 2001.   

    3. Z. Zou, J. Ye and H. Arakawa, “Optical and structural properties of solid oxide photocatalyst Bi2FeNbO7”, J. Mater. Reser., 16, 35, 2001. 

    4. Z. Zou, J. Ye, and H. Arakawa, “Substitution effects of In3+ by Fe3+ on photocatalytic and structural properties of Bi2InNbO7 photocatalysts”, J. Molecular Catalysis A: Chemical., 168, 289, 2001. 

    5. Z. Zou, J. Ye, and H. Arakawa, “Photocatalytic and photophysical properties of a novel series of solid photocatalysts, Bi2MNbO7 (M=Al3+, Ga3+ and In3+)“, Chem. Phys. Letter., 333, 57, 2001. 

    6. Z. Zou, J. Ye, and H. Arakawa, “Photophysical and photocatalytic properties of InMO4 (M = Nb5+, Ta5+) Under Visible Light Irradiation”, Materials Research Bulletin, 36, 1185, 2001. 

    7. Z. Zou, J. Ye, and H. Arakawa, “Substitution effects of In by Al and Ga on photocatalytic and structural properties of Bi2InNbO7 photocatalysts”, Chem. of Materials, 13, 1765, 2001. 

    8. Z. Zou, J. Ye, and H. Arakawa, “Growth, photophysical and structural properties of Bi2InNbO7”, J. of Crystal Growth, 229, 462, 2001. 

    9. Z. Zou, J. Ye, and H. Arakawa, “Optical and Structural Properties of the BiTa1-xNbxO4 (0≦x≦1) Compounds”, Solid State Communication, 119, 471, 2001. 

    10. Z. Zou, J. Ye, K. Sayama and H. Arakawa, “Photocatalytic and photophysical properties of a novel series of solid photocatalysts, BiTa1-xNbxO4 (0≦x≦1)“, Chem. Phys. Lett. 343, 303, 2001. 

    11. Z. Zou, J. Ye, and H. Arakawa, “Photocatalytic behavior of a new series of In0.8M0.2TaO4 (M=Ni, Cu, Fe) photocatalysts in aqueous solutions“, Catalysis Letters, 75, 209, 2001. 

    12. Z. Zou and H. Arakawa, “JCPD data of powder-X-ray diffraction for Bi2InNbO7”, International Center for diffraction data, ICDD 53-1042, 2001. 

    13. Z. Zou, J. Ye, and H. Arakawa, “Role of R in Bi2RNbO7(R= Y, Rare earth): Effect on Band Structure and Photocatalytic Properties”, J. Phys. Chem. B., 106, 517, 2002. 

    14. Z. Zou,R. Abe, K. Sayama and H. Arakawa,“A new system of photocatalyst InTaO4 with hydrogen-evolving under visible light irradiation.”Catalysts and Catalysis, Catalysis Society of Japan, 44, 128, 2002. 

    15. Z. Zou, “The production of clean hydrogen fuel from the inexhaustible supplies of water and sunlight brings us one step”, Chemical Engineering, Japan, 47(5), 329, 2002.

    16. Z. Zou, J. Ye, K. Sayama and H. Arakawa, “Photocatalytic hydrogen and oxygen formation under visible light irradiation with M-doped InTaO4 (M=Mn, Fe, Co, Ni and Cu) photocatalysts “, J. of Photochemistry and Photobiology A-Chemistry, 148, 65, 2002.

    17.Z. Zou, J. Ye, and H. Arakawa, “Substitution effect of Ta5+ by Nb5+ on photocatalytic, photophysical and structural properties of BiTa1-xNbxO4(0≦x≦1.0)”, J. Mater. Reser., 17, 1446, 2002.  

    18.Z. Zou and H. Arakawa, “JCPD data of powder-X-ray diffraction for Bi5In2Nb3O18-x”, International Center for diffraction data, ICDD 21425, 2002.

    19. Z. Zou, J. Ye, and H. Arakawa, “Effect of Ni Substitution on the Photocatalytic Activity of InTaO4 Under Visible Light Irradiation ”, J. Mater. Reser, 17, 1419, 2002.

    20. Z. Zou and H. Arakawa, “Stoichiometric water splitting into H2 and O2 under visible light irradiation; Development of new mixed oxide semiconductor photocatalysts.”, Material Stage, Japan, 2, 16, 2002.

    21. Z. Zou, “Solar boost for green fuel hydrogen from water”, Chemical Engineering, Japan, 47(12), 916, 2002.

    22.Z. Zou, Ryu Abe, K. Sayama and Hironori Arakawa, “A new system of photocatalyst InTaO4 with hydrogen-evolving under visible light irradiation”, Catalysts and Catalysis, Catalysis Society of Japan, 44, 128, 2002.

    23.Z. Zou, J. Ye, and H. Arakawa, “Surface characterization of nano-particles of NiOx/In0.9Ni0.1TaO4: Effects on photocatalytic activity”, J. Phys. and Chem. B. 106, 13098, 2002.

    24.Z. Zou and H. Arakawa, “Visible-light photocatalyst splits water with oxide semiconductor ”, Ceramic Data Book, Japan, 30 (84), 83, 2002.

    25. Z. Zou, “A new artificial photosynthetic process: directly splitting water into H2 and O2 using oxide semiconductor under visible light”, Today of Advanced Industrial Science and Technology, 2(2), 6, 2002.

    26. J. Ye, Z. Zou, H. Arakawa, M. Oshikiri, M. Shimoda, A. Matsushita and T. Shishito, “Correlation of crystal and electronic structures with photophysical properties of water splitting photocatalysts InMO4 (M=V5+, Nb5+, Ta5+)”, J. of Photochemistry and Photobiology A-Chemistry, 148, 79, 2002.

    27. J. Ye, Z. Zou, M. Oshikiri, M. Shimoda, A. Matsushita and T. Shishito, “A novel hydrogen-evolving photocatalyst InVO4 active under visible light irradiation”, Chem. Phys. Lett., 356, 221, 2002.

    28. M. Oshikiri, A.P. Seitsonen, M. Parrinello, M. Boero, J. Ye and Z. Zou, “The promising new photo-catalyst InVO4 for water molecule decomposition in the visible wavelength region”, Mater. Resear. Soc. USA, 56, 187, 2002.

    29. M. Oshikiri, M. Boero, J. Ye and Z. Zou, “The Two dimemsional thin file surface layer structure of the promising new photo-catalyst InVO4 for water molecule decomposition with water molecule adsorbed on the surface”, The proceedings of the Ninth International Conference on Composittes Engineering, 578, 2002.

    30. J. Yin, Z. Zou, J. Ye, “Synthesis and photophysical properties of barium indium oxides J. Mater. Res. 17, 201, 2002.

    31. M. Oshikiri, M. Boero, J. Ye, Z. Zou and G. Kido, “Electronic structures of promising photocatalysts InMO4 (M=V, Nb, Ta) and BiVO4 for water decomposition in the visible wavelength region”, J. of Chemical Physicas, 117, 7313, 2002.

    32. J. Ye and Z. Zou, “Experimental and theoretical studies of photocatalytic splitting water on oxide semiconductor InMO4”, Mater. Institute of Japan, 50 (7), 44, 2002.

    33.Z. Zou, J. Ye, R. Abe, K. Sayame and H. Arakawa, “Effect of 3d transition-metal (M) doping in In1-xMxTaO4 photocatalysts on water splitting under visible light irradiation”, Studies in Surface Science and Catalysis, 145, 165, 2003.

    34.Z. Zou, J. Ye  and  H. Arakawa, “Photocatalytic property and electronic structure of a novel series of solid photocatalysts, Bi2RNbO7 (R=Y, rare earth)”, Topics in Catalysis, 22, 107, 2003. 

    35. Z. Zou, J. Ye, and H. Arakawa, “Photocatalytic water splitting into H2 and/or O2 under UV and visible light irradiation with a semiconductor photocatalyst”. International Journal of Hydrogen Energy, 28, 663, 2003.

    36. Z. Zou and H. Arakawa, “Direct water splitting into H2 and O2 under visible light irradiation with a new series of mixed oxide semiconductor photocatalysts”, J. Photochem. Photobiol., A: Chem, 158, 145, 2003.

    37. Z. Zou and J. Ye “Experimental and theoretical studies of photocatalytic water splitting on mixed oxide semiconductors”, Materials Science Forum, 423, 475, 2003.

    38. D. Wang, J. Wang, Z. Zou and J. Ye “Development of novel spinel type photocatalysts for hydrogen generation by solar energy conversion”, Materials Science Forum, 423, 491, 2003.

    39. J. Ye, and Z.Zou, “A novel series of water splitting photocatalysts NiM2O6 (M=Nb, Ta) active under visible light”. International Journal of Hydrogen Energy, 28, 651, 2003.

    40. J. Ye, Z. Zou, M. Oshikiri and T. Shishido “New visible light driven semiconductor photocatalysts and their applications as functional eco-materials”, Materials Science Forum, 423, 825, 2003.

    41. J. Tang, D. Wang, Z. Zou and J. Ye “Modification of photophysical properties of WO3 by doping different metals”, Materials Science Forum, 423, 163, 2003.

    42. J. Yin, Z. Zou and J. Ye “Photophysical and photocatalytic properties of new photocatalysts CaIn0.5M0.5O3 (M=Nb, Ta)”, Materials Science Forum, 423, 479, 2003.

    43. J. Yin, Z. Zou, J. Ye,“Photophysical and photocatalytic properties of MIn0.5Nb0.5O3(M=Ca, Sr and Ba)”, J. Phys. and Chem. B. 107, 61, 2003.

    44. J. Wang, Z. Zou and J. Ye “Synthesis, structure and photocatalytic property of a new hydrogen evolving photocatalyst Bi2InTaO7”, Materials Science Forum, 424, 485, 2003.

    45. H. Arakawa, Z. Zou and K. Sayame and R. Abe “Solar hydrogen production: Direct water splitting into hydrogen and oxgen by new photocatalysts under visible light irradation”, Chemistry TOC, International solar energy ISEC 44, 301, 2003.

    46. J. Yin, Z. Zou and J.Ye, “Photophysical and photocatalytic properties of new photocatalysts MCrO4 (M= Sr, Ba)”, Chem. Phys. Letters, 378, 24, 2003

    47. J. Yin, Z. Zou and J.Ye, “A novel series of the new visible-light-driven photocatalysts MCo1/3Nb2/3O3 (M=Ca, Sr and Ba) with special electronic structures”, Journal of Phys. Chem. B., 107, 4936, 2003.

    48. D. Wang, Z. Zou and J. Ye, “A new spinel-type photocatalyst BaCr2O4 for H2 evolution under UV and visible light irradiation”, Chem. Phys. Letters, 373, 191, 2003.

    49. J. Tang, Z. Zou, J. Yin and J. Ye, “Photcatalytic degradation of methylene blue on CaIn2O4 under visible light irradiation”, Chem. Phys. Letters, 382, 175, 2003.

    50. J. Tang, Z. Zou and J. Ye, “Photophysical and photocatalytic properties of AgInW2O8”, J. Phys. and Chem. B., 107, 14265, 2003.

    51. K. Sayama, A. Nomura, Z. Zou, R. Aba, Y. Abe and H. Arakawa, “ Photoelectrochemical decomposition of water on nanocrystalline BiVO4 film electrodes under visible light”, Chem. Comm. 2908, 2003.

    52. R. Abe, M. Higashi, Z. Zou, K. Sayama, Y. Abe and H. Arakawa, “Photocatalytic water splitting into H2 and O2 over R3TaO7 and R3NbO7 (R=Y, Yb, Gd, La): Effect of crystal structure on photocatalytic activity”, J. Phys. and Chem. B., 108, 811, 2003. 53.J. Wang, Z. Zou and J. Ye, “Some structure and photophysical properties of two functional double oxides Bi2MTaO7 (M= Ga and In)”, J. Alloys and compounds, 377,248,2004. 54.J. Luan,Z. Zou, M. Lu, S. Zheng and Y. Chen, “Growth,structural and photophysical properties of Bi2GaTaO7”J.of Crystal Growth, 273(1-2),241,2004.

    55. J. Tang, Z. Zou and J. Ye, “Photophysical decomposition of organic contaminats by Bi2WO6”, Catalysis Lett, 92, 53, 2004.

    56. D. Wang, Z. Zou, J. Ye, “A novel Zn-doped Lu2O3/Ga2O3 composite photocatalyst for stoichiometric water splitting under UV light irradiation”, Chem. Phys. Letters, 384, 139, 2004.

    57. J. Ye, J. Tang, K. Kako and Z. Zou, “Now visible light dived photocatalysts”, Mater. Institute of Japan, 52 (1), 70, 2004.

    58. J. Tang, Z. Zou and J. Ye, “Substitution Effects of Ca2+ by Sr2+ and Ba2+ on Structural Properties and Photocatalytic Behaviors of CaIn2O4”, Chem. of Mater., 16, 1644, 2004.

    59. J. Yin, Z. Zou and J. Ye, “Possible role of lattice dynamics in the photocatalytic activity of BaM1/3N2/3O3 (M=Ni, Zn; N=Nb, Ta)”, J. Phys. Chem. B., 108, 8888, 2004.

    60. R. Abe, M. Higashi, Z. Zou, K. Sayama and Y. Abe, “Photocatalytic water splitting into H2 and O2 over R2Ti2O7 (R=Y, Rare Earth)with pyrochlore structure”, Chem. Lett., 33, 954, 2004.

    61. J. Yin, Z. Zou and J. Ye, “Enhanced photoelectrolysis of water with photoanode Nb:SrTiO3”, Applied Physics lett., 85, 689, 2004.

    62. D. Wang, Z. Zou and J. Ye, “A novel series of photocatalysts M2.5VMoO8 (M = Mg, Zn) for O2 evolution under visible light irradiation”, Catalysis Today, 93,885,2004.

    63. J. Yin, Z. Zou and J. Ye, “Photophysical and photocatalytic activities of a novel photocatalyst BaZn1/3Nb2/3O3”, J. Phys. Chem. B.,108,12790,2004.

    64. J. Tang, Z. Zou, M. Katagiri, T. Kako and J.Ye, “Photocatalytic degradation of MB on MIn2O4 (M=alkali earth metal) under visible light: effects of cryst structure on the photocatalytic activity”, Catalysis Today, 93, 891, 2004.

    65. J. Tang, Z. Zou and J. Ye, “Efficient photocatalytic decomposition of organic contaminants over CaBi2O4 under visible light irradiation”, Angew.Chem.Int.Ed.,43,4463,2004.

    66. Jingfei Luan, Minghui Lu, Shourong Zheng, Z. Zou “Optical, structural and photophysical properties of Ga2BiTaO7 compound” J Mater Sci, 40 (18): 4905, Sep 2005.

    67.D. Wang, Z. Zou and J. Ye, “Photocatalytic H2 evolution over a new visible-light-driven photocatalyst In12NiCr2Ti10O42”Chem. Phys. Lett., 411, 285, 2005.

    68.D. Wang, J. Tang, Z. Zou and J. Ye, “Photophysical and photocatalytic properties of a new series of visible-light-driven photocatalysts M3V2O8 (M=Mg,Ni,Zn)” Chem.Mater.,17,5177,2005.

    69.D. Wang, Z. Zou, and J. Ye,“Photocatalytic Water Splitting with the Cr-doped Ba2In2O5/In2O3 Composite Oxide Semiconductors.”Chem. Mater., 17, 3255, 2005.

    70.S. Zheng, J. Wan and Z. Zou,“Photo-catalutic properties of TiO2 supported layered compoundsfor dye removal.”Res.Chem.Intermed,31,493,2005.

    71. J. Wang, Z. Zou and J. Ye,“Surface modification and photocatalytic activity of distorted pyrochlore-type Bi2M(M=In,Ga and Fe)TaO7 photocatalysts.”J. of Physics and Chemistry of Solids,66,349,2005.

    72.D-F., Li, N. Xu, Y. Chen and Z. Zou*, “Role of d electrons in oxide semiconductor CoTa2O6 on Photocatalytic and photophysical properties”, Res.Chem.Intermed,31, 521 ,2005.

    73.Z. Li, N. Xu, Y. Chen and Z. Zou*, “Photocatalytic behavior of a new series of photocatalysts, Ba2Bi(V)Bi(III)O6 and Ba2Sb(V)Bi(III)O6”, Res.Chem.Intermed,31, 529 ,2005.

    74.J. Ye  and Z. Zou, “Visible Light Sensitive Photocatalysts In1-xMxTaO4 (M=3d Transition-Metal) and Their Activity Controlling Factors”, J. of  Physics and Chemistry of Solids, 66,266,2005.

    75. Yu Huang, Zhi Zheng, Zhihui Ai, Lizhi Zhang, Xiaoxing Fan, and Z. Zou, “Core-Shell Microspherical Ti1-xZrxO2 Solid Solutions Photocatalysts Directly from Ultrasonic Spray Pyrolysis” Journal of Physical Chemistry B, 110,19323,2006.

    76. Haitao Zhang, Ouyang suxin, Zhaosheng Li, Tao Yu, J. Ye and Z. Zou, “paration, Characterization and Photocatalytic Activity of Polycrystalline Bi2O3/SrTiO3 composite powders.” Journal of Physics and Chemistry of Solids., 67, 2501, 2006.

    77. Ling Gao, Ying Wang, Jianqiang Wang, Li huang, Liying Shi, Xiaoxing Fan, Z. Zou, Tao Yu, Mei Zhu, and Zhaosheng Li, “A Novel ZnII-sensitive Fluorescent Chemosensor Assembled within Aminopropyl -functionalized Mesoporous SBA-15 ” Inorg. Chem.,45, 6844-6850, 2006.

    78.SX. Ouyang, HT. Zhang, D.-F. Li, T. Yu,J.Ye and Z. Zou, “Electronic structure and photocatalytic characterization of a novel photocatalyst AgAlO2” J. Phys. Chem. B. 110, 11677, 2006.

    79.ZS. Li, T. Yu, J. Ye and Z. Zou*,“Degradation in photocatalytic activity induced by hydrogen- related defects in nano-LiNbO3 material.”Appl. Phys. Lett.,88,071917,2006.

    80.D.-F. Li, J. Zheng and Z. Zou*, “Band structure and photocatalytic properties of perovskite-type compound Ca2NiWO6 for water splitting.” Journal of Physics and Chemistry of Solids, 67,801,2006.

    81.J.Yin, Z. Zou, and J. Ye, “Sol-gel synthesis and characterization of the photocatalyst BaCo1/3Nb2/3O3” Journal of Materials Science, 41, 1131, 2006.

    82.Jingfei Luan, Shourong Zheng, Xiping Hao,  Guoyou Luan , Xiaoshan Wu, Z. Zou “Photophysical and photocatalytic properties of novel M2BiNbO7 (M = In and Ga) ” Journal of the Brazilian Chemical Society, 17(7): 1368,Nov-Dec 2006.

    83.Jingfei Luan, Z. Zou, Minghui Lu, Yanfeng Chen “Structural and photocatalytic properties of the new solid photocatalyst In2BiTaO7” Research on Chemical intermediates, 32 (1): 31, 2006. 

    84.YP. Yuan, J.Lv, XJ.Jiang, ZS.Li, T.Yu,Z.Zou and J.Ye, “ Large impact of strontium substitution on photocatalytic water splitting activity of BaSnO[sub 3]” Appl. Phys. Lett.,91,094107,2007. 

    85.X.Y.Chen, T.Yu, F.Gao, H.T.Zhang, L.F.Liu, Y.M.Wang, Z.S.Li, and Z. Zou,  “Application of weak ferromagnetic BiFeO3 films as photoelectrode material under visible-light irradiation”Appl. Phys. Lett.,97,022114,2007. 

    86.Haitao Zhang, Xinyi Chen, Zhongjie Yang, Lifei Liu, Zhaosheng Li, Tao Yu, Z. Zou, “Synthesis of mesoporous Co3O4 nanocrystalline via a facile and inexpensive method.”J. Phys. D: Appl. Phys., 40,4129,2007.

    87.Jinkai Zhou, Z. Zou,Ajay K,Ray,and X. S. Zhao, “Preparation and Characterization of Polycrystalline Bismuth Titanate Bi12TiO20 and Its Photocatalytic Properties under Visible Light Irradiation.” Ind. Eng. Chem. Res., 46, 745, 2007.

    88. Xi Zhang,Zhihui Ai,Falong Jia,Lizhi Zhang,XiaoxingFan,Z.Zou, “Selective synthesis and visible-light photocatalytic activities of BiVO4 with different crystalline phases”,Materials Chemistry and Physics.,103,162,2007.

    89.Tetsuya Kako, Z. Zou, Masahiko Katagirl, and J. Ye, “Decomposition of Organic Compounds over NaBiO3 under Visible Light Irradiation.”Chem.Mater.,19,198,2007.

    90. Yawen Wang, Lizhi Zhang, Kejian Deng, Xinyi Chen, Z. Zou.“Low temperature synthesis and photocatalytic activity of rutile TiO2 nanorods superstructures. ”The Journal of Physical Chemistry C., 111(6),2709,2007.

    91. Zhaosheng Li, J. Ye and Z. Zou, “Photocatalytic properties of MIn(WO4)2(M=Li,Na and K ).”J.Mater.Res., 22(4),958,2007.

    92. Haitao Zhang, Xiaobo Wua,c, Yaoming Wang, Xinyi Chen, Zhaosheng Li,Tao Yu, J. Ye, and Z. Zou, “Preparation of Fe2O3/SrTiO3 composite powders and their photocatalytic properties.”Journal of Physics and Chemistry of Solids.,68,280,2007.

    93. Wenjun Luo, Tao Yu, Yaoming Wang, Zhaosheng Li, J. Ye, and Z. Zou, “Enhanced Photocurrent-Voltage Characteristics of WO3/Fe2O3 Nano-electrodes.” Journal of Physics D: Applied Physics., 40,1091,2007.

    94. Wj. Ren, Zh. Ai, Fl. Jia, LZ. Zhang , X. Fan and Z. Zou,“Low temperature preparation and visible light photocatalytic activity of mesoporous carbon-doped crystalline TiO2 ” Applied Catalysis B, 69,138,2007.

    科研项目

    1. 国家 863 计划课题一项 

    2 .国家自然科学基金两项 

    3 .教育部科学技术研究重点项目一项 

    4 .江苏省基础研究计划一项

    任职情况

    南京大学环境材料与再生能源研究中心主任 中国仪器仪表学会仪表材料学会 常务 

    中国材料研究学会环境材料分会 常务理事 

    《高等学校化学学报》 评审专家 国家自然科学基金(NSFC) 特约评委

     Journal of Photochemistry and Photobiology 评审专家 

     Journal of Physical and chemistry 评审专家 

    《功能材料》英文刊 评审专家

    学术经历

    日本东京大学理学博士,南京大学物理学和材料学博士生导师,中国科学院院士。世界科学院院士,国家重点基础研究发展计划“973”项目首席科学家。

    现为南京大学环境材料与再生能源研究中心主任,江苏省纳米技术重点实验室主任,南京大学昆山创新研究院院长。



    申请专利

           1.碱金属和Ag的铋系复合氧化物可见光响应的光催化剂及其应用 授权公告日:2005年8月17日 专利号:ZL 03158264.8 邹志刚、陈延峰、葉金花  

    2.可见光响应的光催化剂及其应用 授权公告日:2007年6月20日 专利号:ZL 200310106280.6 邹志刚、陈延峰、葉金花 

    3.含铋复合氧化物BiMO* 和Bi*NO*型半导体光催化剂及制备和应用 授权公告日:2007年6月20日 专利号:ZL 200410041284.5 李敦钫、祝梅、邹志刚  

    4. 具有可见光响应的多孔薄膜半导体光电极及光电化学反应装置及制备 申请日:2003年11月5日 申请号:200310106207.9 邹志刚、陈延峰、葉金花  

    5.四针状氧化锌晶须光催化降解室内有机污染物 申请日:2005年10月28日 申请号:200510095087.6 李敦钫、祝梅、邹志刚

    6.可见光响应型光催化薄膜层的制备方法 申请日:2005年3月11日 申请号:200510038095.7 李敦钫、祝梅、邹志刚

    7.真空限氧法制备不同形貌氧化锌的技术 申请日:2005年4月29日 申请号:200510039156.1 李敦钫、祝梅、邹志刚

    8.四针状氧化锌晶须光催化降解室内有机污染物 申请日:2005年10月28日 申请号:200510095087.6 李敦钫、祝梅、邹志刚

    9.掺杂纳米氧化锌制备方法及其光催化降解有机物和抗菌的应用 申请日:2005年10月28日 申请号:200510095053.7 李敦钫、祝梅、邹志刚

    10.AgTO2型复合氧化物可见光响应光催化材料及其应用 申请日:2006年1月13日 申请号:200610037753.5 欧阳述昕、邹志刚

    11.Ag2ZO4型复合氧化物可见光响应光催化材料及其制备与应用 申请日:2006年1月13日 申请号:200610037755.4 欧阳述昕、张海涛、邹志刚

    12.燃料电池双极板流道 申请日:2006年6月13日 申请号:200610085388.5 顾军、邹志刚、张宝春

    13.燃料电池极板 申请日:2006年6月13日 申请号:200610085389.X 顾军、邹志刚、王京晨

    14.锂离子电池复合正极材料碳包覆的磷酸铁锂的微波合成方法 申请日:2006年8月22日 申请号:200610011396.X 邹志刚、祝梅、陈红

    15.纳米金属硫化物的制备方法 申请日:2006年8月25日 申请号:200610088468.6 张海涛、祝梅、邹志刚

    16.介孔金属氧化物的制备方法 申请日:2006年8月25日 申请号:200610088467.1 张海涛、祝梅、邹志刚

    17.氧化钴、氧化镍催化材料及制法和应用 申请日:2006年9月20日 申请号:200610096329.8 张海涛、欧阳述昕、祝梅、邹志刚

    18.便携式燃料电池极板 申请日:2006年12月18日 申请号:200610161262.1 顾军、于涛、祝梅、邹志刚

    19.敏化的TiO*和ZnS的可见光响应光催化剂及制备方法 申请日:2007年1月11日 申请号:200710019284.9 张海涛、毛示旻、祝梅、邹志刚

    20.燃料电池气体扩散层的制备方法 申请日:2007年1月19日 申请号:200710019376.7 顾军、于涛、祝梅、邹志刚  

    21.介孔大比表面积二氧化钛和氧化锌的应用 申请日:2007年2月9日 申请号:200710020070.3 张海涛、李朝升、王小奇、祝梅、邹志刚  

    22.染料敏化太阳电池的抗衰老封装方法 申请日:2007年4月26日 申请号:200710021285.7 邹志刚、刘斌、田汉民、田志鹏、于涛 

    23. 染料敏化太阳电池转换效率及单波长量子效率测量方法 申请日:2007年5月9日 申请号:200710022225.7 邹志刚、刘礼飞、陈新益、刘斌、于涛 


     美国专利: 

    Photocatalyst and use thereof for decomposing chemical substance Patent Number: US 7033566 Hironori Arakawa,Kazuhiro Sayama,Zhigang Zou 


    日本专利: 

    1.光触媒及びそれを用いた水素製造ならびに有害物質の分解方法 特許年月日:平成17年11月25日 特许第3742873号 荒川裕則、鄒志剛 (Zhigang Zou)、佐山和弘 

    2.アルカリ金属及びAgのビスマス複合酸化物可視光応答性 触媒とそれを用いた有害化学物質分解除去方法 特許年月日:平成18年10月27日 特许第3870267号 葉金花、鄒志剛(Zhigang Zou)

    业绩评价

    (1)可见光光催化材料的开发及在光解水制氢和环境净化方面应用的研究 开发高效太阳能转换光催化材料体系已成为当前国际材料领域为从根本上解决能源和环境污染问题所进行的重大前沿科学探索之一。光催化材料可以分成第一代和第二代,第一代光催化材料主要是紫外光响应型,其典型的代表材料是TiO2。第一代光催化材料(TiO2)只能利用太阳光中的紫外光,而紫外光只占太阳光能量的4%左右,可见光(400~750nm)却占太阳光能量的43%。2001年,邹志刚等人发现了In0.9Ni0.1TaO4光催化材料并应用于光解水制氢,实现了将太阳能转化为化学能(Nature 414,625,2001)。该工作突破了传统的只能在紫外光下具有活性的第一代光催化材料体系,发展了一种全新的具有可见光活性的新型复杂氧化物催化体系(In1-xNixTaO4)。该项成果在国际上引起广泛关注。这种新型复杂氧化物光催化材料的提出,代表了第二代可见光响应型光催化材料体系研究的开始。 此后,又成功地开发了一系列新的材料体系,如BaM1/3N2/3O3(M =Ni, Zn; N=Nb, Ta) 、MCo1/3Nb2/3O3 (M=Ca, Sr, Ba) 等。并将p-n结及双光子异质结的概念引入光催化材料体系,通过两种光催化材料的能带结构的合理匹配,促进电子和空穴的快速分离,开发了Cr掺杂的Ba2In2O5/In2O3异质结光催化材料体系,初步完成了室外实际太阳光下光催化分解水产生氢气的实验。 在光催化环境净化材料的研究方面, 邹志刚等人成功地合成了能利用可见光有效地降解水和空气中的甲醛、乙醛、亚甲基蓝和H2S等有害物的新型光催化材料,在J. Phys. Chem. B等杂志上发表一系列文章,也实现了利用可见光矿化环境污染物。 本研究成果在该领域最具权威的Nature、 Angew. Chem. Int. Ed. 及J. Phys. Chem. B等国际刊物上发表相关论文90余篇,并已申请10余项中国发明专利和6项日本专利。 

    (2)新超导材料PrBa2Cu3Ox的发现及超导机制的研究 以YBa2Cu3Ox为代表的金属氧化物高温超导材料RBa2Cu3Ox(R为稀土元素)被发现以来10年间,人们一直认为用Pr置换Y所得到的RBa2Cu3Ox不显示超导性能的现象是众所周知的,也有不少研究者提出了试图解释此现象的理论假设。邹志刚等人采用改进的TSFZ方法,在世界上首次合成了RBa2Cu3Ox超导体单晶,并在极限状态(高压、低温)下测定物性,从不同角度探究该物质的超导现象并研究其超导机制。发现了加压下有很大的压力效应。此外,通过单晶结构解析,判定了有超导特性的样品具有完整的结晶结构,这与传统的、用Flux方法制备的无超导特性样品(Pr-Ba-Cu-O)Cu(I)位置有明显的缺陷的情况有显著的不同。申请者的研究成果结束了多年来关于RBa2Cu3Ox是否有超导特性的争论,为新探索超导材料及超导机制提供了有益的信息。本研究成果在该领域最具权威的Phys. Rev. Lett.及Phys. Rev. B等国际刊物上发表相关论文20多篇,申请和获得专利多项,在国际上有很大的反响。

    新闻报导


    “第一资源”开发大会交流]邹志刚:发展新能源与材料的思考

    邹志刚/姚颖方团队首次发现氮还原中的多米诺效应

    南京大学罗文俊/邹志刚团队在国际上首次提出法拉第层与结新概念并实现直接太阳能转化与存储

    “射向肿瘤细胞的阿波罗之箭“:南京大学邹志刚/姚颖方团队发表光催化肿瘤治疗综述

    《自然》聚焦南京大学邹志刚院士团队

    邹志刚:光催化领域的前行者

    南京大学邹志刚院士捐资设立“钱学森奖学金”

    南大新当选院士邹志刚:光催化领域的前行

    问天科学讲坛丨中国科学院邹志刚院士应邀来我校交流访问

    物理学院邹志刚教授课题组在体异质结少数载流子传输机理研究方面取得新进展

    南京大学邹志刚院士当选2018年发展中国家科学院院士

    我校邹志刚教授当选2015年中国科学院院士

    寸草心愿报三春晖——记海外归来的特聘教授邹志刚

    邹志刚院士做客第十一期“金陵博雅讲堂”

    现代工学院姚颖方副教授、邹志刚院士团队与中国空间技术研究院合作提出面向原位资源利用的地外人工光合成材料

    闫世成教授、邹志刚院士团队与顾民教授合作提出商业氧化物颗粒电化学质子化方法

    姚颖方教授/邹志刚院士团队开发纳米高熵材料体系合成新方法

    现代工学院邹志刚院士团队李朝升教授课题组耦合光催化/光热催化实现光驱动的高效Sabatier反应

    物理学院周勇教授/邹志刚院士团队提出引入金属阳离子 空位诱导直接能源化空气中二氧化碳

    南京大学罗文俊/邹志刚团队提出半导体/半导体法拉第结等能电荷传输新理论

    用月壤实现地外人工光合成,邹志刚院士、姚颖方教授团队在月壤研究中取得进展

    闫世成教授、邹志刚院士团队提出基于热致磁相变的高效热-电耦合可再生能源制氢

    南京大学罗文俊/邹志刚团队发现法拉第结的光电压记忆效应

    闫世成教授/邹志刚院士团队在热-电耦合可再生能源制氢领域取得新进展

    南京大学罗文俊/邹志刚采用法拉第结理论统一描述光催化与电催化过程

    邹志刚院士和周勇教授研究团队在光催化还原二氧化碳转化高附加值碳氢化合物取得新进展

    南京大学罗文俊/邹志刚首次采用电位窗口调控提升法拉第结光电催化性能

    南京大学携手中国空间技术研究院成立“中国航天先进材料创新联盟”

    南大氢能与燃料电池检验检测中心落户常熟