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    Member of suzhou university

    Dr. Xiaoqing Huang

    Date:2019-01-09      Views:391

    姓名:黄小青

    职称:教授、博士生导师

    部门:化学学院

    Email: hxq006@suda.edu.cn

     

    学历及学术经历:

    1984年出生于江西。20056月年毕业于西南师范大学(现在西南大学)化学化工学院,获学士学位;20119月毕业于厦门大学化学化工学院,获博士学位,导师为郑南峰和郑兰荪教授;20119月至20146月美国University of California, Los Angeles材料科学与工程系博士后,导师为著名材料科学家Yu HuangXiangfeng Duan教授。2014年受聘于苏州大学材化部,特聘教授,博士生导师。入选江苏省双创人才计划、江苏省六大人才高峰高层次人才、江苏省“333工程”培养对象、苏州市“高等院校、科研院所紧缺高层次人才”、“金鸡湖双百人才计划”等。现作为课题负责人主持或参与苏州大学人才引进科研启动费、江苏省杰出青年基金项目、国家自然科学基金面上项目、科技部纳米专项(两项)。

     

    研究领域:

    无机\有机纳米材料控制制备;多功能纳米材料;金属纳米催化剂;能源储存及转移;生物纳米材料。

     

    第一通讯作者论文:

    2017

    1.  K. Z. Jiang, D. D. Zhao, S. J. Guo*, X. Zhang, X. Zhu, J. Guo, G. Lu, X. Q. Huang*, “Efficient oxygen reduction catalysis by subnanometer Pt alloy nanowires” Science Advances 2017, 3(2), e1601705;

    2.  P. T. Wang=, X. Zhang=, J. Zhang, S. Wan, S. J. Guo*, G. Lu*, J. L. Yao, X. Q. Huang*, “Precise tuning in platinum-nickel/nickel sulfide interface nanowires for synergistic hydrogen evolution catalysis” Nat. Commun. 2017, 8, 14580;

    3.  L. Z. Bu, Q. Shao, Y. C. Pi, …. X. Q. Huang*,…. 2017, Under revision;

    4.  L. Z. Bu, Q. Shao, B. E, J. L. Yao, J. Guo, X. Q. Huang*, “PtPb/PtNi Intermetallic Core/Atomic Layer Shell Octahedra for Efficient Oxygen Reduction Electrocatalysis” JACS 2017, 139 (28), pp 9576-9582;

    5.  S. X. Bai, Q. Shao, P. T. Wang, Q. G. Dai, X. Y. Wang, X. Q. Huang*, “Highly Active and Selective Hydrogenation of CO2 to Ethanol by Ordered Pd-Cu Nanoparticles” JACS 2017, 139 (20), 6827-6830;

    6.  Y. C. Pi, Q. Shao, P. T. Wang, F. Lv, S. J. Guo*, J. Guo, X. Q. Huang*, “Trimetallic Oxyhydroxide Coralloids for Efficient Oxygen Evolution Electrocatalysis” Angew. Chem. Int. Ed. 2017, 56(16), 4502-4506;

    7.  F. L. Li, Q. Shao, X. Q. Huang*, J. P. Lang*, “Nanoscale Trimetallic Metal-Organic Frameworks Enable Efficient Oxygen Evolution Electrocatalysis” Angew. Chem. Int. Ed. 2017, DOI: 10.1002/anie.201711376;

    8.  N. Zhang, Y. G. Feng, X. Zhu, S. J. Guo, J. Guo, X. Q. Huang*, “Superior bifunctional liquid fuel oxidation and oxygen reduction electrocatalysis enabled by PtNiPd core-shell nanowires” Adv. Mater.2017, 29(7), DOI: 10.1002/adma.201603774;

    9.  Y. G. Feng, Q. Shao, X. N. Cui, ….X. Q. Huang*,…. 2017, Under revision;

    10.  Y. C. Pi, Q. Shao, P. T. Wang, J. Guo, X. Q. Huang*, “General Formation of Monodisperse IrM (M=Ni, Co, Fe) Bimetallic Nanoclusters as Bifunctional Electrocatalysts for Acidic Overall Water Splitting” Adv. Funct. Mater. 2017, In Press;

    11.  K. Z. Jiang, Q. Shao, D. D. Zhao, L. Z. Bu, J. Guo, X. Q. Huang*, “Phase and Composition Tuning of One-Dimensional Platinum-Nickel Nanostructures for Highly Efficient Electrocatalysis” Adv. Funct. Mater. 2017, In Press;

    12.  P. T. Wang,# Q. Shao,# X. N. Cui, X. Zhu, X. Q. Huang*, “Hydroxide membranes coated Pt3Ni nanowires as highly efficient catalysts for selective hydrogenation reaction” Adv. Funct. Mater. 2017, In Press;

    13.  N. Zhang, Q. Shao, Y. C. Pi, J. Guo, X. Q. Huang*, Chem. Mater.2017, In Press;

    14.  S. X. Bai, Q. Shao, Y. G. Feng, L. Z. Bu, X. Q. Huang*, “Highly Efficient Carbon Dioxide Hydrogenation to Methanol Catalyzed by Zigzag Platinum-Cobalt Nanowires”Small 2017, In Press;

    15.  Y. Zhang, Q. Shao, Y. C. Pi, J. Guo, X. Q. Huang*, “A Cost-efficient Bifunctional Ultrathin Nanosheets Array for Electrochemical Overall Water Splitting”Small 2017, In Press;

    16.  M. W. Zhu, Q. Shao, Y. C. Pi, B. Huang, Y. Qian*, J. Guo, X. Q. Huang*, “Ultrathin Vein-Like Iridium-Tin Nanowires with Abundant Oxidized Tin as High-Performance Ethanol Oxidation Electrocatalysts” Small 2017, In Press;

    17.  X. H. Sun, Q. Shao, Y. C. Pi, J. Guo, X. Q. Huang*, “A General Approach to Ultrathin NiM (M = Fe, Co, Mn) Hydroxide Nanosheets as High-Performance Low-Cost Electrocatalysts for Overall Water Splitting”JMCA 2017, 5, 7769-7775;

    18.  N. Zhang, Y. Zhu, Q. Shao, X. Zhu, X. Q. Huang*, “Ternary PtNi/PtxPb/Pt core/multishell nanowires as efficient and stable electrocatalysts for fuel cell reactions” JMCA 2017, 5, 18977-18983;

    19.  P. P. Song, X. N. Cui, Q. Shao, Y. G. Feng, X. Zhu, X. Q. Huang*, “Networked Pt-Sn nanowires as efficient catalysts toward alcohol electrooxidation” JMCA 2017, TA-COM-09-2017-008467.R1;

    20.  D. D. Zhao=, K. Z. Jiang=, Y. C. Pi, X. Q. Huang*, “Superior electrochemical oxygen evolution enabled by three-dimensional layered double hydroxide nanosheet superstructures” ChemCatChem 2017, 9(1), 84-88;

    21. Y. Tang, T. Yang, Q. Wang, X. Lv, X. Song, H. Ke, Z. Guo, X. Q. Huang, J. Hu, Z. Li, P. Yang*, X. Yang*, H. Chen*, “Albumin-coordinated assembly of clearable platinum nanodots for photo-induced cancer theranostics” Biomaterials 2017, DOI: 10.1016/j.biomaterials.2017.10.030;

     

    2016

    22.  L. Z. Bu, N. Zhang, S. J. Guo*, X. Zhang, J. Li, J. L. Yao, T. Wu, G. Lu, J. Y. Ma, D. Su*, X. Q. Huang*, “Biaxially strained PtPb/Pt core/shell nanoplate boosts oxygen reduction catalysis” Science2016, 354(6318), 1410-1414;

    23.   L. Z. Bu, S. J. Guo*, X. Zhang, X. Shen, D. Su, G. Lu, X. Zhu, J. L. Yao, J. Guo, X. Q. Huang*, “Surface engineering of hierarchical platinum-cobalt nanowires for efficient electrocatalysis” Nat. Commun.2016, 7, 11850;

    24.  P. T. Wang, K. Z. Jiang, G. M. Wang, J. L. Yao, X. Q. Huang*, “Phase and interface engineering of platinum-nickel nanowires for efficient electrochemical hydrogen evolution” Angew. Chem. Int. Ed.2016, 55(41), 12859-12863;

    25.  K. Z. Jiang=, P. T. Wang=, S. J. Guo*, X. Zhang, X. Shen, G. Lu, D. Su, X. Q. Huang*, “Ordered PdCu-based nanoparticles as bifunctional oxygen-reduction and ethanol-oxidation electrocatalysts” Angew. Chem. Int. Ed.2016, 55(31), 9030-9035;

    26.  Y. C. Pi, N. Zhang, S. J. Guo*, J. Guo, X. Q. Huang*, “Ultrathin laminar Ir superstructure as highly efficient oxygen evolution electrocatalyst in broad pH range” Nano Lett. 2016, 16(7), 4424-4430;

    27.  J. B. Ding, L. Z. Bu, S. J. Guo, Z. P. Zhao, E. B. Zhu, Y. Huang*, X. Q. Huang*, “Morphology and phase controlled construction of Pt-Ni nanostructures for efficient Electrocatalysis” Nano Lett.2016, 16(4), 2762-2767;

    28.  N. Zhang, L. Z. Bu, S. J. Guo*, J. Guo, X. Q. Huang*, “Screw thread-like platinum-copper nanowires bounded with high-index facets for efficient electrocatalysis” Nano Lett.2016, 16 (8), 5037-5043;

    29.  J. B. Ding, Y. Zhou, Y. G. Li*, S. J. Guo*, X. Q. Huang*, “MoS2 nanosheet assembling superstructure with a three-dimensional ion accessible site: a new class of bifunctional materials for batteries and electrocatalysis” Chem. Mater. 2016, 28(7), 2074-2080;

    30.  N. Zhang, S. J. Guo*, X. Zhu, J. Guo, X. Q. Huang*, “Hierarchical Pt/PtxPb core/shell nanowires as efficient catalysts for electrooxidation of liquid fuels” Chem. Mater. 2016, 28(12), 4447-4452;

    31.  Y. Zhang, L. Z. Bu, K. Z. Jiang, S. J. Guo*, X. Q. Huang*, “Concave Pd-Pt core-shell nanocrystals with ultrathin Pt shell feature and enhanced catalytic performance” Small2016, 12(6), 706-712;

    32.  Y. G. Feng, L. Z. Bu, S. J. Guo, J. Guo, X. Q. Huang*, “3D Platinum-lead nanowire networks as highly efficient ethylene glycol oxidation electrocatalysts” Small2016, 12(33), 4464-4470;

    33.  Y. Zhang, X. Zhu, J. Guo, X. Q. Huang*, “Controlling palladium nanocrystals by solvent-induced strategy for efficient multiple liquid fuels electrooxidation” ACS Appl. Mater. Interfaces 2016, 8(32), 20642-20649;

    34.  L. Z. Bu, Y. G. Feng, J. L. Yao*, S. J. Guo, J. Guo, X. Q. Huang*, “Facet and dimensionality control of Pt nanostructures for efficient oxygen reduction and methanol oxidation electrocatalysts” Nano Res.2016, 9(9), 2811-2821;

    35  X. H. Sun, N. Zhang, X. Q. Huang*, “Polyaniline-coated platinum nanocube assemblies as enhanced methanol oxidation electrocatalysts” ChemCatChem 2016, 8(22), 3436-3440;

    36.  S. F. Xie, Q. C. Xu, X. Q. Huang*, “Defect-rich metal nanocrystals in catalysis” ChemCatChem 2016, 8(3), 480-485;

     

    2015

    37.  L. Z. Bu, J. B. Ding, S. J. Guo*, X. Zhang, D. Su, X. Zhu, J. L. Yao, J. Guo, G. Lu, X. Q. Huang*, “A general method for multimetallic platinum alloy nanowires as highly active and stable oxygen reduction catalysts” Adv. Mater.2015, 27(44), 7204-7212;

    38.  Y. Zhang, M. S. Wang, E. B. Zhu, Y. B. Zheng, Y. Huang*, X. Q. Huang*, “Seedless growth of palladium nanocrystals with tunable structures: from tetrahedra to nanosheets” Nano Lett.2015, 15(11), 7519-7525;

    39.  X. H. Sun, K. Z. Jiang, N. Zhang, S. J. Guo*, X. Q. Huang*, “Crystalline control of {111} bounded Pt3Cu nanocrystals: multiply-twinned Pt3Cu icosahedra with enhanced electrocatalytic properties” ACS Nano2015, 9(7), 7634-7640;

    40.  X. H. Sun, X. Zhu, N. Zhang, J. Guo, S. J. Guo, X. Q. Huang*, “Controlling and self assembling of monodisperse platinum nanocubes as efficient methanol oxidation electrocatalysts” Chem. Commun.2015, 51(17), 3529-3532;

    41.  J. B. Ding, X. Zhu, L. Z. Bu, J. L. Yao, J. Guo, S. J. Guo*, X. Q. Huang*, “Highly open rhombic dodecahedral PtCu nanoframes” Chem. Commun.2015, 51(47), 9722-9725;

    42.  J. B. Ding, L. Z. Bu, N. Zhang, J. L. Yao, Y. Huang, X. Q. Huang*, “Facile synthesis of ultrathin bimetallic PtSn wavy nanowires by nanoparticle attachment as enhanced hydrogenation catalysts” Chem. Eur. J. 2015, 21(10), 3901-3905;

    43.  K. Z. Jiang, L. Z. Bu, P. T. Wang, S. J. Guo*, X. Q. Huang*, “Trimetallic PtSnRh wavy nanowires as efficient nanoelectrocatalysts for alcohol electrooxidation” ACS Appl. Mater. Interfaces2015, 7(27), 15061-15067;

     

    第一作者论文:

    44. X. Huang, Y. Huang,* et al. Science, 2015, 348, 1230.

    45. X. Huang, Y. Huang,* et al. Nano. Lett., 2014, 12, 4265.

    46. X. Huang, Y. Huang,* et al. Energy Environ. Sci., 2014, 7, 2957.

    47. X. Huang, Y. Huang,* et al. Angew. Chem. Intl. Ed., 2013, 52, 2520.

    48. X. Huang, Y. Huang,* et al. Angew. Chem. Intl. Ed., 2013, 52, 6063.

    49. X. Huang, Y. Huang,* et al. Adv. Mater., 2013, 25, 2974.

    50. X. Huang, Y. Huang,* et al. Nanoscale, 2013, 5, 6284.

    51. X. Huang, Y. Huang,* et al.JMCA, 2013, 1,14449.

    52. X. Huang, Y. Huang,* et al. Nano Lett., 2012, 12, 4265.

    53. X. Huang, Y. Huang,* et al. Chem.-Eur. J, 2012, 18, 9505.

    54. X. Huang, N. Zheng,* et al. Nat. Nanotechol., 2011, 6, 28.

    55. X. Huang, N. Zheng,* et al. J. Am. Chem. Soc., 2011, 13, 4718.

    56. X. Huang, N. Zheng,* et al. J. Am. Chem. Soc., 2011, 13, 15946. 

    57. X. Huang, N. Zheng,* et al. Adv. Mater., 2011, 23, 3420. 

    58. S. Tang,# X. Huang,# Nanfeng Zheng,* et al. Adv. Funct. Mater., 2010, 20, 2442.

    59. X. Huang, N. Zheng,* et al. J. Am. Chem. Soc., 2009, 39, 13916.

    60. X. Huang, N. Zheng,* J. Am. Chem. Soc., 2009, 13, 4602.

    61. X. Huang, N. Zheng,* et al. Angew. Chem. Int. Ed., 2009, 48, 4808.

    62. X. Huang, N. Zheng,* et al. Small, 2009, 3, 361.


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