广西大学张信义

mitao

张信义，男，广西大学大学特聘教授，博士生导师。2001年获得中国科学院固体物理研究所理学博士。先后在香港及澳洲从事功能材料的结构与物性及其在能源及环境领域的应用研究。曾经担任澳大利亚研究院研究员和澳大利亚蒙纳仕大学化学系讲师,博士生导师。2018年作为学术带头人引进广西大学就职于可再生能源材料协同创新中心。先后负责及参与多项香港及澳大利亚科学基金与工程项目。曾获得中科院一等奖学金，安徽省高校学术带头人，福建闽江学者特聘教授以及湖北楚天学者讲座教授等荣誉。担任东北大学及合肥工业大学兼职教授以及美国化学协会研究基金的国际评审专家。已在Nature Communications，Advanced Materials，Angewandte Chemie International Edition，等国际刊物发表学术论文100多篇。发表的论文被同行引用3800余次。目前的研究方向包括：（1）基于硅基材料的光电转化器件，(2)与太阳能储能相配套的绿色环保电池， （3）多孔材料的催化，敏感及电化学性能。

张信义教授

研究方向：

功能材料（纳米材料及多孔材料），表面等离子体光学，光电转化器件，铁镍电池等能量存储器件，可再生能源转化及利用。

代表性论文及专利：

通讯作者及第一作者论文

1.   C. L. Xiao,X. Y. Zhang, ShuniLi, Bryan H. R. Suryanto，D. R. Macfarlane,In situ synthesis of core−shell-Ni3Fe(OH)9/Ni3Fehybridnanostructures as highly active and stable bifunctional catalystsforwater electrolysis，ACS Appl. Energy Mater.2018,DOI: 10.1021/acsaem.8b00172.

2.   C. L. Xiao, Shuni Li,X. Y. Zhang,D. R. Macfarlane, MnO2/MnCo2O4/Niheterostructure with quadruple hierarchy: A bifunctional electrode architecturefor overall urea oxidation,J. Mater. Chem.A2017,5, 7825-7832.( Cover image)

3.   C. L. Xiao, Hong Hu,X. Y. Zhang,D. R. Macfarlane,Nanostructuredgold/bismutite hybrid heterocatalysts for plasmon-enhanced photosynthesis ofammonia,ACS Sustain. Chem. Eng.2017, 5 (11), 10858–10863. ( Cover image)

4.      H. Hu, C. L. Xiao, K. Chen. H. T. Li,X. Y. Zhang,Controllable fabrication ofheterostructured Au/Bi2O3with plasmon-effect forefficient photodegradation of Rhodamine 6G.J. Exp. Nanosci.2017,12,133-44.

5.      M. Ali,F. L. Zhou, K. Chen, C. Kotzur, C. L.Xiao, L. Bourgeois,X. Y. Zhang,D. R. Macfarlane, Nanostructured photoelectrochemical solar cell for nitrogenreduction using plasmon enhanced black silicon,Nature Commun.2016, 15-22965.

6.      C. L. Xiao,X. Y. Zhang, T. Mendes, G. Knowles, A.Chaffee,D. R. Macfarlane, Highly ordered hierarchical mesoporous MnCo2O4withcubicIα3dsymmetry for electrochemical energy storage,J. Phys. Chem. C2016,120,23976-23983.

7.    X.Y. Zhang,Y. H. Zheng, X. Liu, W. Lv, J. Y. Dai, D. Y. Lei, D. R.Macfarlane,Hierarchical porous plasmonic metamaterials for reproducibleultrasensitive surface-enhanced Raman spectroscopy,Adv. Mater. 2015,27(6) 1090-1096.

8.    X.Y.Zhang,Y. H. Zheng, D. G. McCulloch, L. Y. Yeo, J. R. Friend,D. R.Macfarlane,Controlled morphogenesis and self-assembly of bismutitenanocrystals into three-dimensional nanostructures and their applications,J.Mater. Chem.A2014, 2(7),2275-2282.

9.    X.Y.Zhang,W. Lu, J. Y. Dai, J. F. Yao, H. T. Wang, J. R. Friend,D. R.Macfarlane, Nanofabrication of highly ordered, tunable metallic mesostructuresvia quasi-hard-templating of lyotropic liquid crystals,Sci. Rep.2014, 4,7420.

10.   X.Y.Zhang,J. F. Yao, M. Ali, J. Wei, H. T. Wang, L. Y. Yeo, J. R. Friend,D.R. Macfarlane, UV/ozone-assisted low temperature preparation of mesoporous TiO2withtunable phase composition and enhanced solar light photocatalytic activity,J.Mater. Chem.A2014, 2 (44), 18791 – 18795.

11.   X.Y.Zhang,J. F. Yao, D. Li, X. D. Chen, H. T. Wang, L. Y. Yeo, J. R.Friend,Self-assembled highly crystalline TiO2mesostructures forsunlight-driven, pH-responsive photodegradation of dyes,Mater. Res. Bull.2014,55, 13-18.

12.   L.Xu, H. Y. Xu, S. B, Wu,X. Y.Zhang,Synergy effect over electrodepositedsubmicron Cu2O films in photocatalytic degradation of methyleneblue,Appl. Surf. Sci.2012, 258, 11, 4934-4938.

13.   X.Y. Zhang, J. Lv, L. Bourgeois, J. W. Cui, Y. C. Wu, H. T. Wang, P. A.Webley, Formation and photocatalytic properties of bismuth ferritesubmicrocrystals with tunable morphology,New J. Chem.2011, 35(4),937-941.

14.   X.Y. Zhang, W. Lu, J. Y. Dai, L. Bourgeois, N. Hao, H. T. Wang, D. Y. Zhao,P. A. Webley, Ordered Hierarchical Porous Platinum Membranes with TailoredMesostructures,Angew. Chem. Int. Ed.2010, 49, 10101-10105.

15.   X.Y. Zhang, D. H. Deng, D. Li. H. T. Wang, P. A. Webley, One-step fabricationof ordered Pt-Cu nanotube arrays for ethanol electrooxidation,Mater. Lett.2010,64, 10, 1169-1172.

16.   X.Y. Zhang, D. H. Deng, D. Li. et al. Direct electrodeposition of Pt nanotubearrays and their enhanced electrocatalytic activities,Eletrochem. Commun.2009,11, 190-193.

17.   X. Y. Zhang,W. Lu, J. Y. Dai, et al.Porous platinum nanowire arrays for directethanol fuel cell applications,Chem. Commun.2009, 195-197.

18.   X. Y. Zhang, D. Li, L. Bourgeois. et al.Direct electrodeposition of porousgold nanowire arrays for biosensing applications,ChemPhysChem2009, 10,436-441.

19.   X. Y. Zhang, H. T. Wang, L. Bourgeois. et al.Direct electrodeposition of goldnanotube arrays for sensing applications,J. Mater. Chem.2008, 18, 463.

20.   X. Y. Zhang, L. Bourgeois. J. F. Yao. et al.Tuning the morphology of bismuthferrite nano- and microcrystals: from sheets to fibers,Small2007, 3(9),1523.

21.   X. Y. Zhang, J. Y. Dai, C. H. Lam,et al.Zinc/ZnO Core-shell hexagonal nanodiskdendrites and their photoluminescence,Acta Mater.2007, 55, 5039.

22.   X. Y. Zhang, L. H. Xu, et al.Synthesis and characterization of singlecrystalline selenium nanowire arrays,Mater. Res. Bull.2006, 41, 1729.

23.   X.Y. Zhang, J. Y. Dai, C. W. Lai, Synthesis and characterization of highlyordered multiferroic BiFeO3nanowire arrays,Progress in SolidState Chemistry2005, 33 /2-4, 147.

24.   X. Y. Zhang, Y.Cai, et al.Formation and phase transformation of seleniumnanowire arrays in anodic porous alumina templates,J. Crystal Growth2005,276/3-4, 674.

25.   X. Y. Zhang, C. W. Lai, et al.Synthesis and ferroelectric properties ofmultiferroic BiFeO3nanotube arrays,Appl. Phys. Lett.2005,87(14), 143102.

26.   X. Y. Zhang, J. Y.Dai, H. C. Ong, et al.Hydrothermal synthesis of orientedZnO nanobelts and their temperature dependent photoluminescence,Chem. Phys.Lett. 2004, 393 (1-3), 17.

27.   X. Y. Zhang, X Zhao, et al.Synthesis and piezoresponse of highly orderedPb(Zr0.53Ti0.47)O3nanowire arrays,Appl.Phys. Lett.2004, 85(18), 4190.

28.   X.Y. Zhang, J. Y. Dai，Fabrication and magnetic behavior ofsuperconductor nanowire arrays,Nanotechnology2004, 15 (9), 1166.

29.   X. Y.Zhang, L. HXu, et al.Fabrication and magnetic behavior of Co-Ninanowire arrays with small diameters,Physica B-Condens Matter2004, 353(3-4), 187.

30.   X.Y.Zhang, G. H. Wen, Y. F. Chan, et al, Fabrication andcharacterization of ultrathin Fe nanowire arrays,Appl. Phys. Lett. 2003,83(16), 3341

31.   X. Y. Zhang, L. D. Zhang, et al.Electrochemical fabrication of highly orderedsemiconductor and metallic nanowire arrays,Chem. Mater.2001, 13(8),2511.

32.   X. Y. Zhang, L. D. Zhang, et al.Template synthesis of high-density carbonnanotube arrays,J. Crystal Growth2001, 223/1-2, 9.

33.   X. Y. Zhang, L. D. Zhang, et al.Fabrication and characterization of highlyordered Au nanowire arrays,J. Mater. Chem.2001, 11, 1732.

34.   X.Y. Zhang, L. D. Zhang, G. W. Meng, G. H. Li, N. Y. J. Phillipp, F.Phillipp, Synthesis of ordered single crystal silicon nanowire arrays”,Adv.Mater.2001, 13, 1238-1241.

35.   X. Y. Zhang, L. D. Zhang, et al.Template synthesis of well-graphitized carbonnanotube arrays,Mater. Sci. Eng. A2001, 308/1-2, 306.

36.   X. Y. Zhang, B. D. Yao, et al.Electrochemical fabrication of singlecrystalline TiO2nanowire arrays,J. Electrochem. Soc.2001,148, 7, G398.

其它论文

37.F. L. Zhou, L. Miguel, M. Ali,M.Kar, A. N. Simonov.C.McDonnell-Worth, C. H. Sun,X. Y.Zhang,D. R.Macfarlane,Electro-synthesis of Ammonia from Nitrogen at Ambient Temperature and Pressurein Ionic Liquids,Energy Environ. Sci.2017,10, 2516 - 2520.

38.X. J.Lu, Y. L. Jin,X. Y. Zhang, G. Q. Xu, D. M. Wang, J. Lv, Z. X. Zheng, Y.C. Wu,NiS and MoS2nanosheetco-modified graphitic C3N4ternary heterostructure forhigh efficient visible light photodegradation of antibiotic,J. Hazard. Mater.2017,10.1016/j.jhazmat.2017.07.004.

39.   A.F. Halima,X. Y. Zhang, D. R. Macfarlane, Metal-Free Black Silicon forSolar-powered Hydrogen Generation,Electrochemical Acta.2017,235,453-462.

40.   K.Chen,X. Y. Zhang, L. Bourgeois, T. Williams, D. R. Macfarlane,Electrochemical reduction of CO2on core-shell Cu/Au nanostructurearrays for syngas production,Electrochemical Acta.2017, 239, 84-89.

41.K. Chen,X.Y. Zhang, D. R. Macfarlane,Ultrasensitive surface-enhanced Raman scatteringdetection of urea by highly ordered Au/Cu hybrid nanostructure arrays,Chem.Commun.2017,53, 7949-7952.

42.   Y.Liang, J. Wei, Y. F. Chen,X. Y. Zhang, G. P. Saman, S. P. Jiang, H. T.Wang, Metal-Polydopamine Frameworks and their Transformation to HollowMetal/N-doped Carbon Particles,Nanoscale,2017,9, 5323-5328.

43.   D. R. Macfarlane,X. Y. Zhang,M. Kar,Measure and control: molecular management is a key to the Sustainocene.GreenChem.2016,18, 5689-5692.

44.   X.J. Lu, Y. L. Jin,X. Y. Zhang, G. Q. Xu, D. M. Wang, J. Lv, Z. X. Zheng,Y. C. Wu, Graphitic C3N4hybrids modified by ultrathin MoS2nanosheetsfor enhancing visible-light photocatalytic properties,Dalton Trans.2016,45,15406-15414.

45.    K.Chen,X. Y. Zhang,Y. L. Zhang, D. Y. Lei,H. T. Li, T. Williams, D. R.Macfarlane,Highly Ordered Ag/Cu Hybrid NanostructureArrays for UltrasensitiveSurface-Enhanced Raman Spectroscopy,Adv.Mater. Interface.2016, 1600115(1-7).

46.   Y.Liang, J. Wei,X. Y. Zhang, G. P. Saman, S. P. Jiang, H. T.Wang,Synthesis of Nitrogen Doped Porous Carbon Nanocubes as Catalyst Supportfor Methanol Oxidation,ChemCatChem2016, 8, 1-5.

47.   H. T. Li, C. H. Sun, R. Vijayaraghavan, F.L. Zhou,X. Y.Zhang,D. R. Macfarlane,Long lifetime photoluminescence in N, S co-doped carbon quantum dots from anionic liquid and their applications in ultrasensitive detection of pesticides,Carbon2016,104, 33-39.

48.   J.W.Cui,J. B. Luo, B. G. Peng,X.Y.Zhang,Y.Zhang,Y..Wang,Y.Q. Qin, H.M. Zheng, S.Xia,Y.C.Wu,Synthesis of porous NiO/CeO2hybrid nanoflake arrays asaplatform for electrochemical biosensing,Nanoscale2016, 8,770-774.

49.   J.Q. Qi,X. Y. Zhang,X. M. Han, Y. Y. Li, X. Y. Wu, R. X. Zhong, R. Guo,Low-temperature controlled synthesis of fine-grained aluminates phosphors andtheir photoluminescence,J. Alloys Compd.2016, 678, 421-427.

50.   H.T. Li, C. H. Sun, F. L. Zhou, M. Ali,X. Y.Zhang,D. R. Macfarlane,Sulfated carbon quantum dots as efficient visible-light switchable acidcatalysts for room-temperature ring opening reactions,Angew. Chem. Int. Ed.2015,54(29), 8420-8424.

51.   H.T. Li,X. Y.Zhang,D. R. Macfarlane, Carbon Quantum Dots/Cu2OHetero-structures for Solar-light Driven Conversion of CO2toMethanol,Adv. Energy Mater.2015, 5, 1401077 (1-6).

52.   J.Wei, Y. Liang,X. Y. Zhang, G. P. Saman, D. Y. Zhao, J. Zhang, S. P.Jiang, H. T. Wang, Controllable synthesis of mesoporous carbon nanospheres andFe–N/carbon nanospheres as efficient oxygen reduction electrocatalysts,Nanoscale2015,7, 6247-6254.

53.   J. Wei, X. Hu, X. Wu, Y. Liang, S.K. Loeng, B. Kong,X. Y. Zhang, G. P. Saman, D. Y. Zhao, H. T. Wang, AGraphene-directed Assembly Route to Hierarchically Porous Co-Nx/C Catalysts forHigh-performance Oxygen Reduction,J. Mater. Chem.A2015,3,16867-16873.

54.   D. Cabral, P. C. Howlett, J. M.Pringle,X. Y. Zhang, D. Macfarlane,Electrochemistry of tris(2,2′-bipyridyl)cobalt(II) in ionic liquids and aprotic molecular solvents on glassy carbon andplatinum electrodes.Electrochimica Acta2015, 180(20), 419-426.

55.   J. W. Cui,X. Y. Zhang, L. Tong, J.B. Luo, Y..Wang, Y.Zhang, K. Xu, Y. C. Wu, A facile synthesis of mesoporous Co3O4/CeO2hybridnanowire arrays for high performance supercapacitors,J. Mater. Chem.A2015,3 (45), 10425-10431.

56.    D.B. Yu, Y. L. Wang, L. Zhang, Z. X. Low,X. Y. Zhang, F. L. Chen, Y. Feng,H. T. Wang, Three-dimensional branched single-crystal β-Co(OH)2nanowirearray and its application for supercapacitor with excellent electrochemicalpropertyNano Energy2014, 10, 153-162.

57.    D.B. Yu, J. F. Yao, Y. Feng, L. Qiu, Y. F. Wang,X. Y. Zhang, Y. Fei, H. T.Wang, In situ growth of Co3O4nanoparticles on alpha-MnO2nanotubes: a new hybrid for high-performance supercapacitors,J. Mater.Chem.A2014, 2(22),8465-8471.

58.   D.B. Yu,X. Y. Zhang, K. Wang, L. He, J. F. Yao, Y. Feng, H. T. Wang,Sawtooth-shaped nickel-based submicrowires and their electrocatalytic activityfor methanol oxidation in alkaline media,Int. J. Hydrogen Energ. 2013,38, 27, 11863-11869.

59.   D.Li,X. Y. Zhang, G. P. Simon, H. T. Wang,Forward osmosis desalinationusing polymer hydrogels as a draw agent: Influence of draw agent, feed solutionand membrane on process performance,Water Research.2013, 47, 1, 209-215.

60.   G.Q. Xu,S.B.Adeloju, Y. C. Wu,X. Y. Zhang,Modification of polypyrrolenanowires array with platinum nanoparticles and glucose oxidase for fabricationof a novel glucose biosensor,Analytica Chimica Acta2012, 755, 100-107.

61.    D.Li,X. Y. Zhang, J. F. Yao, Y. Zeng, G. P. Simon and H. T. Wang,Composite polymer hydrogels as draw agents in forward osmosis and solardewatering,Soft Matter2011,7, 10048-10056.

62.   D.H. Dong, J. F. Yao, Y. Z. Wu,X. Y. Zhang, G. S. Xu, C. Z. Li, H. T.Wang,A 3D fibrous cathode with high interconnectivity for solid oxide fuel cells,Eletrochem.Commun. 2011, 13, 1038-1041.

63.   Y.Wang, Y. C. Wu, Y. Q. Qin, G. B. Xu, J. W. Cui, H. M. Zheng, Y. Hong,X. Y.Zhang, Rapid anodic oxidation of highly ordered TiO2nanotubearrays,J. Alloys Compd.2011, 509, L157-L160.

64.   D.Li,X. Y. Zhang, J. F. Yao, G. P. Simon, H. T. Wang, Stimuli-responsivepolymer hydrogels as a new class of draw agent for forward osmosisdesalination,Chem. Commun.2011, 47, 1710–1712.

65.   D. H. Dong, D. Li,X. Y. Zhang, etal.Eggshellmembrane-templated synthesis of highly crystalline perovskite ceramics forsolid oxide fuel cells,J. Mater. Chem.2011, 21, 1028-1032.

66.   D.H. Dong, D. Li,X. Y. Zhang, Z. L. Chai, K. Wang, et al. Thermosettingpolymer templated nanoporous sinter-active layer for low temperature solidoxide fuel cells,J. Mater. Chem.2010, 20, 1122-1126.

67.   D.H. Dong, Y. Huang,X. Y. Zhang, L. He, C. Z. Li, H. T. Wang, Shapeforming of ceramics with controllable microstructure by drying-free colloidalcasting,J. Mater. Chem.2009, 19, 7070-7074.

68.    J.F. Yao, D. Li,X. Y. Zhang, C. H. Kong, et al. Cubes of zeolite A with anamorphous core,Angew. Chem. Int. Ed.2008, 47, 8397.

69.   L. Han, J. F. Yao, D. Li, J. Ho,X. Y.Zhang, et al.Hollowzeolite structures formed by crystallization in crosslinked polyacrylamidehydrogels,J. Mater. Chem.2008, 18, 3337.

70.   J.Y. Miao, Z. L. Xu,X. Y. Zhang, N. Wang, Z. Y. Yang, P. Sheng, Micropumpsbased on the enhanced electroosmotic effect of aluminum oxide membranes，Adv. Mater.2007, 19, 4234-4237.

71.   J.F. Yao, H. T. Wang,X. Y. Zhang, et al. Role of pores in the carbothermalreduction of carbon-silica nanocomposites into silicon carbide nanostructures,J.Phys. Chem. C2007, 111, 636.

72.   K.C. Hui, J. An,X. Y. Zhang, et al.Electron beam induced light emissionand charge conduction patterning in ZnO by using AlOx layer,Adv. Mater.2005,17(16) 1960.

73.   C. W.Lai, J. Y. Dai,X. Y. Zhang, etal.In situ synthesisand phase transformation of In2O3/Sb core-shellnanostructures,J. Crystal Growth2005, 282/3-4, 383.

74.   N.Wang, B. D. Yao, Y. F. Chan, andX. Y. Zhang, Enchanced photothermaleffect in Si nanowires,Nano Letters2003, 3(2), 475.

75.   B.D. Yao, Y. F.Chan,X. Y. Zhang, et al, Formation mechanism of TiO2nanotubes,Appl.Phys. Lett.2003, 82(2), 757.

76.   M.J. Zheng, L. D. Zhang,X. Y. Zhang, et al. Fabrication and opticalabsorption of ordered indium-oxide nanowire arrays,Chem. Phys. Lett.2001, 334, 298.

77.    M. J. Zheng, G. H. Li,X. Y. Zhang,et al.Fabrication andstructural characterization of large-scale uniform SnO2nanowirearrays embedded in anodic alumina membrane,Chem. Mater.2001,13(11),3859.

78.   B.D. Yao, H. Z. Shi,X. Y. Zhang, et al., Ultraviolet photoluminescencefrom nonbridging oxygen hole centers in porous silica,Appl. Phys. Lett.2001,78(2),174.

79.   M.J. Zheng,X. Y. Zhang, L. Yong, et al., Preparation and opticalproperties of InAs0.4P0.6nanocrystal alloy embedded inSiO2thin films,Semicond. Sci. Technol.2001, 16, 1, 507.

80.   M.J. Zhang, L. D. Zhang, G. H. Li,X. Y. Zhang, et al. Fabrication andphotoluminescence of ordered indium oxide nanowire arrays,Appl. Phys. Lett.2001,79(2), 839.

81.   Y.Lei, L. D. Zhang, G. W. Meng, G. H. Li,X. Y. Zhang, et al., Preparationand photoluminescence of highly ordered TiO2nanowire arrays,Appl.Phys. Lett.2001,78(8), 1125.

已授权专利

1.M.Ali; D.R. Macfarlane;X. Y. Zhang; F. L. Zhou, Functionalisedphoto-electrocatalyst and method for chemical conversion, 2015.4.28, WIPO,PCT/AU2016/000151

2.D. R.Macfarlane;X. Y. Zhang; F. L. Zhou; C. J. McDonnell-Worth; C. S. Kang;M. Kar, Method and Cell for Converson of Dinitrogen into Ammonia, 2016.2.3,WIPO, PCT/AU2017/000036 (专利)

3.P. Shen;N. Wang; J. Y. Miao; Z. Y. Yang; S. H. Yang;X. Y. Zhang, Fabrication ofmembrane nanopump based on porous alumina thin film, 2005.6.3,美国, US11144100

mitao

2019自然科学基金面上项目-基于黑硅材料-离子液体复合体系的光电化学合成氨研究
批准号        21972027        学科分类        光电化学 ( B020405 )
项目负责人        张信义        负责人职称                依托单位        广西大学
资助金额        60.00万元        项目类别        面上项目        研究期限        2019 年 09 月 09 日 至2019 年 09 月 09 日