Hui Zhang

Date: 2011/7/28 16:10:33 Views: 4757

HUI ZHANG'S HOMEPAGE


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Biography

                                                HUI ZHANG, Ph. D.

Dr. Zhang is the professor in State Key Laboratory of Silicon Materials and Department of Materials Science and Engineering of Zhejiang University, P. R. China. 

Dr. Zhang was born in Zhejiang, China in 1977. He received a B.S. degree in materials science and engineering (1995) and a Ph.D. degree in materials physics and chemistry (2005) from Zhejiang University. He started as a Lecturer in the department of materials science and engineering at Zhejiang University in 2005 and was promoted to Associate Professor and Full Professor in 2006 and 2014, respectively. He has ever spent two years in Prof. Xia’s group as a visiting scholar from 2009-2011.



 


Publiction


2015

73. Epitaxial Growth of Twinned Au−Pt Core−Shell Star-Shaped Decahedra as Highly Durable Electrocatalysts
    Ting Bian, Hui Zhang,* Yingying Jiang, Chuanhong Jin, Jianbo Wu,* Hong Yang,* Deren Yang, Nano Lett., in press.



 

72. Ultrathin Two-Dimensional Pd-Based Nanorings as Catalysts for Hydrogenation with High Activity and Stability
     Yi Li, Wenxing Wang, Kaiyang Xia, Wenjun Zhang, Yingying Jiang, Yuewu Zeng, Hui Zhang,* Chuanhong Jin, Ze Zhang, Deren Yang, Small,2015, 11, 4745-4752.

72. 
Lattice-Mismatch-Induced Twinning for Seeded Growth of Anisotropic Nanostructures
     Zhenni Wang, Zhengzheng Chen, Hui Zhang, Zhaorui Zhang, HaijunWu, Mingshang Jin, ChaoWu, Deren Yang, 
      Yadong Yin

     ACS Nano, 20159, 3307-3313.



Link for PDF

71. 
Developing an aqueous approach for synthesizing Au and M@Au (M = Pd, CuPt) hybrid nanostars with plasmonic 
    properties
     Jingshan Du, Junjie Yu, Yalin Xiong, Zhuoqing Lin, Hui Zhang*, Deren Yang
     Phys.Chem.Chem.Phys., 201517, 1265-1272.
70. Kinetically-controlled growth of cubic and octahedral Rh–Pd alloy oxygen reduction electrocatalysts with high activity
     and durability
     Yucong Yan, Fangwei Zhan, Jingshan Du, Yingying Jiang, Chuanhong Jin,Maoshen Fu, Hui Zhang*, Deren Yang
     Nanoscale, 20157, 301-307.


2014

69. In situ Study of Oxidative Etching of Palladium Nanocrystals by Liquid Cell Electron Microscopy
     Yingying Jiang, Guomin Zhu, Fang Lin, Hui Zhang*, Chuanhong Jin*, Jun Yuan, Deren Yang, Ze Zhang
     Nano Lett. 201414, 3761-3765.

 
68. In situ study of the growth of two-dimensional palladium dendritic nanostructures using liquid-cell electron microscopy
     Guomin Zhu, Yingying Jiang, Fang Lin, Hui Zhang*, Chuanhong Jin*, Jun Yuan, Deren Yang, Ze Zhang
     Chem. Commun., 201450, 9447-9450.
 

67. Facile synthesis of high-quality Pt nanostructures with a controlled aspect ratio for methanol electro-oxidation
     Yi Li, Ting Bian, Jingshan Du, Yalin Xiong, Fangwei Zhan, Hui Zhang*,  Deren Yang
     CrystEngComm201416, 8340-8343.
 
 
 
66. Facile synthesis of Rh-Pd alloy nanodendrites as highly active and durable electrocatalysts for oxygen reduction 
    reaction
    Yue Qi, Jianbo Wu, Hui Zhang*, Yingying Jiang, Chuanhong Jin, Mao Sen Fu, Hong Yang, Deren Yang, 
    Nanoscale2014,  6, 3518-3521.
 
 
 
 
65. Monitoring the shape evolution of Pd nanocubes to octahedra by PdS frame markers
     Zhaorui Zhang, Zhenni Wang, Hui Zhang, Chaoqi Wang, Yadong Yin, Mingshang Jin
     Nanoscale20146, 7012-7018.
 
 
64. Facile synthesis of Pd–Pt alloy concave nanocubes with high-index facets as electrocatalysts for methanol oxidation
     Fangwei Zhan,Ting Bian, Wengao Zhao, Hui Zhang*, Mingshang Jin*, Deren Yang, 
      CrystEngComm201416, 2411-2416.
 
 

63. Kinetically Controlled Synthesis of Pt-Cu Alloy Concave Nanocubes with High-Index Facets for Methanol 
      Electro-Oxidation
   Yue Qi, Ting Bian, Sang-Il Choi, Yingying Jiang, Chuanhong Jin, Mao Sen Fu, Hui Zhang*, Deren Yang, 
    Chem. Commun.2014,  50, 560-562.

 


2013

62. Synthesis of rhodium concave tetrahedrons by collectively manipulating the reduction kinetics, facet-selective
      capping, and surface diffusion
     Shuifen Xie, Hui Zhang, Ning Lu, Mingshang Jin, Jinguo Wang, Moon J. Kim, Zhaoxiong Xie, Younan Xia, 
     Nano Lett. 201313, 6262-6268.

61. Atomic resolution liquid-cell transmission electron microscopy investigations of the dynamics of nanoparticles in 
      ultrathin liquids
     Guomin Zhu, Yingying Jiang, Wei Huang, Hui Zhang, Fang Linc, Chuanhong Jin, Chem. Commun.201349, 10944.



60. 
Electrochemical synthesis of SnCo alloy shells on orderly rod-shaped Cu current collectors as anode materials for
     lithium-ion batteries with enhanced performance

     Fangwei Zhan, Hui Zhang*, Yue Qi, Jiazheng Wang, Ning Du, Deren Yang, J. Alloy. Comp.2013570, 119.


59. Synthesis and Lithium Storage Performance of a-Fe2O3-Ag Hybrid Nanorod Anode for Lithium-ion Batteries
    Ping Wu, Ning Du, Hui Zhang, Deren Yang, Tianhong Lu, Chemical Journal of Chinese Universities201334,668.
 

58. Highly loaded CoO/graphene nanocomposites as lithium-ion anodes with superior reversible capacity
     Yue Qi, Hui Zhang,* Ning Du, Deren Yang, Journal of Materials Chemistry A, 20131, 2337. 


 
57.Shape-controlled synthesis of Pd nanocrystals and their catalytic applications 
Hui Zhang, Mingshang Jin, Yujie Xiong, Byungkwon Lim, Younan Xia, Acc. Chem. Res. 2013, 46, 1783. (invited review article)



2012


56.Enhancing the catalytic and electrocatalytic properties of Pt-based catalysts by forming bimetallic nanocrystals with Pd
Hui Zhang, Mingshang Jin, Younan Xia, Chem. Soc. Rev. 2012, 41, 8035 (invited review article).

55.Phase-controlled synthesis of nickel silicide nanostructures
Xing Fan, Hui Zhang,* Ning Du, Deren Yang, Mater. Res. Bull. 2012, 47, 3797.


54.Large-scale synthesis of water-soluble Na2SiF6 nanotubes with polyacrylic acid as a surfactant
Jie Liu Ning Du, Ping Wu, Jiazheng Wang, Hui Zhang,* Deren Yang, Mater. Res. Bull. 2012, 47, 3923.


53.Synthesis of Co3O4@SnO2@C core-shell nanorods with superior reversible lithium-ion storage
Yue Qi, Hui Zhang,* Ning Du, Chuanxin Zhai and Deren Yang, RSC Adv. 2012, 2, 9511.


Mingshang Jin, Hui Zhang, Zhaoxiong Xie, Younan Xia, Energy Environ. Sci. 2012, 5, 6352.


51.Copper can still be epitaxially deposited on palladium nanocrystals to generate core-shell nanocubes despite their large lattice mismatch
Mingshang Jin, Hui Zhang, Jinguo Wang, Xiaolan Zhong, Ning Lu, Zhiyuan Li, Zhaoxiong Xie, Moon J. Kim, Younan Xia, ACS Nano, 2012, 6, 2566.


Hui Zhang, Mingshang Jin, Younan Xia, Angew. Chem. Int. Ed., 2012, 51, 7656 (invited review article, it was highlighted on the inside cover).

49.One-dimensional hybrid nanostructures: synthesis via layer-by-layer assembly and applications
Ning Du, Hui Zhang, Deren Yang, Nanoscale, 2012, 4, 5517 (invited review article).


48.Vertically ordered Ni3Si2/Si nanorod arrays as anode materials for high-performance Li-ion batteries
Xing Fan, Hui Zhang,* Ning Du, Ping Wu, Xiaoyan Xu, Yunpeng Li, Deren Yang, Nanoscale, 2012, 4, 5343.


47.CoO/NiSix core-shell nanowire arrays as lithium-ion anodes with high rate capabilities
Qi Yue, Ning Du, Hui Zhang,* Xing Fan, Yang Yang, Deren Yang, Nanoscale, 2012, 4, 991.


2011

46.Facile synthesis of Pd-Pt alloy nanocages and their enhanced performance for preferential oxidation of CO in excess hydrogen
Hui Zhang, Mingshang Jin, Hongyang Liu, Jinguo Wang, Moon J. Kim, Deren Yang, Zhaoxiong Xie, Jingyue Liu, and Younan Xia, ACS Nano 2011, 5, 8212.

45.Nanocrystals composed of alternating shells of Pd and Pt can be obtained by sequentially adding different precursors
Hui Zhang, Mingshang Jin, Jinguo Wang, Moon J. Kim, Deren Yang, and Younan Xia, J. Am. Chem. Soc. 2011, 133, 10422.

44.Synthesis of Pd-Pt bimetallic nanocrystals with a concave structure through a bromide-induced galvanic replacement reaction
Hui Zhang, Mingshang Jin, Jinguo Wang,Weiyang Li, Pedro H. C. Camargo, Moon J. Kim, Deren Yang, Zhaoxiong Xie, and Younan Xia, J. Am. Chem. Soc. 2011, 133, 6078.

43.Controlling the morphology of rhodium nanocrystals by manipulating the growth kinetics with a syringe pump
Hui Zhang, Weiyang Li, Mingshang Jin, Jie Zeng, Taekyung Yu, Deren Yang, and Younan Xia, Nano Lett. 2011, 11, 898.

42.Palladium concave nanocubes with high-index facets and their enhanced catalytic properties
Mingshang Jin, Hui Zhang, Zhaoxiong Xie, and Younan Xia, Angew. Chem. Int. Ed. 2011, 50, 7850.

2010

41.Facile synthesis of five-fold twinned, starfish-like Rh nanocrystals by eliminating oxidative etching with a chloride-free precursor
Hui Zhang, Xiaohu Xia, Weiyang Li, Jie Zeng, Yunqian Dai, Deren Yang, and Younan Xia, Angew. Chem. Int. Ed. 2010, 49, 5296 (it was highlighted in Nature Materials, 2010, 9, p. 605).


2009

40.General layer-by-layer approach to composite nanotubes and their enhanced lithium-storage and gas-sensing properties
Ning Du, Hui Zhang*, Jingxue Yu, Ping Wu, Chuanxin Zhan, Yanfang, Xu, Jiazheng, Wang, Deren Yang, Chem. Mater. 2009, 21, 5264.

 
39.A versatile approach for the synthesis of ZnO nanorod-based hybrid nanomaterials via layer-by-layer assembly
Ping Wu, Hui Zhang,* Ning Du, Lingyan Ruan, Deren Yang, J. Phys. Chem. C 2009,113, 8147.

38.Carbon nanotube-ZnO nanosphere heterostructures: low-temperature chemical reaction synthesis, photoluminescence, and their application for room temperature NH3 gas sensor
Hui Zhang, Ning Du, Bingdi Chen, Dongsheng Li, Deren Yang, Sci. Adv. Mater. 2009, 1, 13.

37.Controllable growth of Se nanotubes and nanowires from different solvent during the sonochemical process
Hui Zhang, Deren Yang, Xiangyang Ma, Mater. Lett. 2009, 63, 1.

2008

36.Sub-2 nm SnO2 nanocrystals: A reduction/oxidation chemical reaction synthesis and optical properties
Hui Zhang, Ning Du, Bingdi Chen, Tianfeng Cui, Deren Yang, Mater. Res. Bull. 2008, 43, 3164.

 
35.Phase-selective synthesis and self-assembly of monodisperse copper sulphidenanocrystals
Hui Zhang, Yiqiang Zhang, Jingxue Yu, Deren Yang, J. Phys. Chem. C 2008, 112, 13390.

34.Functionalization of carbon nanotubes with magnetic nanoparticles: general nonaqueous synthesis and magnetic properties
Hui Zhang, Ning Du, Ping Wu, Bingdi Chen, Deren Yang, Nanotechnology 2008, 19, 315604.

33.Controllable growth of dendrite-like CuO nanostructures by ethylene glycol assisted hydrothermal process
Hui Zhang, Shenzhong Li, Xiangyang Ma, Deren Yang, Mater. Res. Bull. 2008, 43, 1291.


32.From cobalt nitrate carbonate hydroxide hydrate nanowires to porous Co3O4 nanorods for high performance lithium-ion battery electrodes
Hui Zhang, Jianbo Wu, Chuanxin Zhai, Xiangyang Ma, Ning Du, Jiangping, Tu, Deren Yang, Nanotechnology 2008, 19, 035711.

31.One-pot, large-scale synthesis of SnO2 nanotubes at room temperature
Ning Du, Hui Zhang, Bingdi Chen, Xiangyang Ma, Deren Yang, Chem. Commun. 2008, 26, 3028.

30.Cobalt ferrite nanorings: Ostwald ripening dictated synthesis and magnetic properties
Hui Zhang, Chuanxin Zhai, Jianbo Wu, Xiangyang Ma, Deren Yang, Chem. Commun. 2008, 26, 5648.

29.Homogeneous coating of Au and SnO2 nanocrystals on carbon nanotubes via layer-by-layer assembly: a new ternary hybrid for a room-temperature CO gas sensor
Ning Du, Hui Zhang, Xiangyang Ma, Deren Yang, Chem. Commun. 2008,26, 6182.


2007

28.Porous Co3O4 nanotubes derived from Co4(CO)12 clusters on carbon nanotube templates: a highly efficient material for Li-battery applications
Ning Du, Hui Zhang, Bindi Chen, Jianbo Wu, Xiangyang Ma, Zhihong Liu, Yiqiang Zhang, Deren Yang, Adv. Mater. 2007, 19, 4505.

27.From ZnO nanorods to 3D hollow microhemispheres: solvothermal synthesis, photoluminescence and gas sensor properties
Hui Zhang, Jianbo Wu, Chuanxin Zhai, Ning Du, Xiangyang Ma, Deren Yang, Nanotechnology 2007, 18, 455604.

26.Cathodoluminescence and its mapping of flower-like ZnO, ZnO/ZnS core-shell and tube-like ZnS nanostructures
Hui Zhang, Rongguo Xie, T. Sekiguchi, Xiangyang Ma, Deren Yang, Mater. Res. Bull. 2007, 42, 1286.

 
25.A novel low-temperature chemical solution route for straight and dendrite-like ZnO nanostructures
Hui Zhang, Ning Du, Jianbo Wu, Xiangyang Ma, Deren Yang, Xiaobin Zhang, Zhiqing Yang, Mater. Sci. Eng. B 2007, 141, 76.

24.Porous indium oxide nanotubes: layer-by-layer assembly on carbon nanotube templates and application for room temperature NH3 gas sensor
Ning Du, Hui Zhang,* Bindi Chen, Xiangyang Ma, Zhihong Liu, Jianbo Wu, Deren Yang, Adv. Mater. 2007, 19, 1641.

23.Synthesis of flower-like CdS nanostructures by organic-free hydrothermal process and their optical properties
Hui Zhang, Deren Yang, Xiangyang Ma, Mater. Lett. 2007, 61, 3507.


2006

 
22.Synthesis and characterization of CdS based sulfide coaxial cable and nanotubes by sacrificial approach
Hui Zhang, Deren Yang, Hongzhi Sun, Xiangyang Ma, Duanlin Que, Mater. Lett. 2006, 60, 2004.

21.Transformation mechanism of Te particles into Te nanotubes and nanowires during solvothermal process
Hui Zhang, Deren Yang, Xiangyang Ma, Duanlin Que, J. Cryst. Growth 2006, 289, 568.

20.Straight and thin ZnO Nanorods: hectogram-scale synthesis at low temperature and cathodoluminescence
Hui Zhang, Deren Yang, Xiangyang Ma, Ning Du, Jianbo Wu, and Duanlin Que, J. Phys. Chem. B 2006, 110, 827.


2005

19.A versatile solution route for oxide/sulfide core–shell nanostructures and nonlayered sulfide nanotubes
Hui Zhang, Deren Yang, Xiangyang Ma, and Duanlin Que, Nanotechnology 2005, 16, 2721.

18.Some critical factors in the synthesis of CdS nanorods by hydrothermal process
Hui Zhang, Deren Yang, Xiangyang Ma, Duanlin Que, Mater. Lett. 2005, 59, 3037.

17.Synthesis and field emission characteristics of bilayered ZnO nanorod array prepared by chemical reaction
Hui Zhang, Deren Yang, Xiangyang Ma, and Duanlin Que, J. Phys. Chem. B 2005, 109, 17055.

16.Self-assembly of CdS: from nanoparticles to nanorods and arrayed nanorod bundles
Hui Zhang, Deren Yang, Xiangyang Ma, Yujie Ji, ShenZhong Li, Duanlin Que, Mater. Chem. Phys. 2005, 93, 65.

15.Controllable growth of ZnO nanostructures by citric acid assisted hydrothermal process
Hui Zhang, Deren Yang, Shenzhong Li, Xiangyang Ma, Yujie Ji, Jin Xu, Duanlin Que, Mater. Lett. 2005, 59, 1696.

14.Controllable growth of ZnO microcrystals by a capping-molecule-assisted hydrothermal process
Hui Zhang, Deren Yang, Dongshen Li, Xiangyang Ma, Shenzhong Li, and Duanlin Que, Cryst. Growth Des. 2005, 5, 547.

13.Synthesis of cadmium hydroxide nanoflake and nanowisker by hydrothermal method
Hui Zhang, Xiangyang Ma, Yujie Ji, Jin Xu, Deren Yang, Mater. Lett. 2005, 59, 56.


 
2004

12.Hydrothermal synthesis of flower-like Bi2S3 with nanorods in the diameter region of 30 nm
Hui Zhang, Deren Yang, Shenzhong Li, Yujie Ji, Xiangyang Ma, Duanlin Que, Nanotechnology 2004, 15, 1122.

11.Synthesis of flower-like ZnO nanostructures by an organic-free hydrothermal process
Hui Zhang, Deren Yang, Xiangyang Ma, Yujie Ji, Jin Xu, Duanlin Que, Nanotechnology 2004, 15, 622.

10.Low temperature synthesis of flowerlike ZnO nanostructures by cetyltrimethylammonium bromide-assisted hydrothermal process
Hui Zhang, Deren Yang, Yujie Ji, Xiangyang Ma, Jin Xu, and Duanlin Que, J. Phys. Chem. B 2004, 108, 3955.

9.Synthesis of CdS nanotubes by chemical bath deposition
Hui Zhang, Xiangyang Ma, Jin Xu, Deren Yang, J. Cryst. Growth 2004, 263, 372.

8.Selenium nanotubes synthesized by a novel solution phase approach
Hui Zhang, Deren Yang, Yujie Ji, Xiangyang Ma, Jin Xu, and Duanling Que, J. Phys. Chem. B 2004, 108, 1179.

7.Synthesis of one-dimensional chalcogenides by a novel hydrothermal process
Hui Zhang, Deren Yang, Yujie Ji, Xiangyang Ma, Jin Xu, Duanling Que, Solid State Phenomena 2004, 99-100, 203.

 
6.Effects of complexing agent on CdS thin films prepared by chemical bath deposition
Hui Zhang, Xiangyang Ma, Deren Yang, Mater. Lett. 2004, 58, 5.

2003

5.Fabrication and characterization of Lal1.8Ca0.2MnO3 nanowires
Hui Zhang, Xiangyang Ma, Jin Xu, Deren Yang, Chem. J. Chin Univ. (Chinese) 2003, 24, 1738.

4.Long Bi2S3 nanowires prepared by a simple hydrothermal method
Hui Zhang, Yujie Ji, Xiangyang Ma, Jin Xu and Deren Yang, Nanotechnology 2003, 14, 974.

3.Single crystalline CdS nanorods fabricated by a novel hydrothermal method
Hui Zhang, Xiangyang Ma, Yujie Ji, Jin Xu, Deren Yang, Chem. Phys. Lett. 2003, 377, 654.

2.Arrays of ZnO nanowires fabricated by a simple chemical solution route
Hui Zhang, Xiangyang Ma, Jin Xu and Deren Yang, Nanotechnology 2003, 14, 423.


2002

1.Directional CdS nanowires fabricated by chemical bath deposition
Hui Zhang, Xiangyang Ma, Jin Xu, Junjie Niu, Jian Sha, Deren Yang, J. Cryst. Growth 2002, 246, 108.