孫振華[中國科學院副研究員]

孫振華,現為中國科學院金屬研究所副研究員。2001年本科畢業於吉林大學化學學院化學專業,2006年在吉林大學化學學院無機合成與製備化學國家重點實驗室獲得無機化學博士學位。2007年至2009年在香港中文大學進行博士後研究工作。2009年獲中國科學院金屬研究所“引進優秀學者”資格,主要研究方向為納米碳材料及碳基複合材料在儲能和催化中的套用研究。目前,已在Angew Chem Int Ed、Adv Mater、Adv Funct Mater、Small和Chem.Commun.等期刊發表SCI論文38篇,論文被SCI他引1026餘次,H因子19。

基本信息

孫振華

性 別 男

最高學歷 博士研究生

職 稱 副研究員

專家類別 碩士生導師

部 門 瀋陽材料科學國家(聯合)實驗室 先進炭材料研究部

簡歷

教育背景

2001年09月–2006年10月, 吉林大學化學學院,無機合成與製備化學國家重點實驗室,無機化學博士學位

1997年09月–2001年07月, 吉林大學化學學院,化學專業,學士學位

工作經歷

2009年07月—現在, 副研究員,作為“引進優秀學者”受聘於中國科學院金屬研究所瀋陽材料科學國家(聯合)實驗室。

2007年03月–2009年10月, 博士後,香港中文大學物理系

研究領域

納米碳材料及碳基複合材料在儲能中的套用。

代表論著

1) X. M. Gu, W. Qi, Z. H. Sun*, L. Y. Zhang, W. Liu, X. L. Pan, X. Z. Xu*, D. S. Su*, Covalently functionalized carbon nanotubes supported Pd nanoparticles for catalytic reduction of 4-nitrophenol. Nanoscale,

2) X. M. Gu, W. Qi, S. C. Wu, Z. H. Sun, X. Z. Xu*, D. S. Su*, Noncovalent functionalization of multi-walled carbon nanotubes as metal-free catalysts for the reduction of nitrobenzene. Catal. Sci. Technol.

3) X. M. Gu, Z. H. Sun*, S. C. Wu, W. Qi, H. H. Wang, X. Z. Xu*, D. S. Su*, Surfanctant-free hydrothermal synthesis of sub-10 nm γ-Fe2O3/polymer porous composites with high catalytic activity for reduction of nitroarenes. Chem. Commun

4) Z. Tan, Z. H. Sun, Q. Guo, H. H. Wang, D. S. Su*, A novel ion-exchange method for the synthesis of nano-SnO/micro-C hybrid structure as high capacity anode material in lithium ion batteries. J. Mater. Sci. Technol

5) H. Yuan, Z. H. Sun, H. Y. Liu, B. S. Zhang, C. L. Chen, H. H. Wang, Z. M. Yang, J. S. Zhang, F. Wei, D. S. Su*, Immobilizing carbon nanotubes on SiC foam as a monolith catalyst for oxidative dehydrogenation reactions. Chemcatchem

6) Q. Guo, Z. H. Sun*, M. Gao, Z. Tan, B. S. Zhang, D. S. Su*, Porous V2O5-SnO2/CNTs composites as high performance cathode materials for lithium-ion batteries. Journal of Energy Chemistry

7) Z. Tan, Z. H. Sun*, H. H. Wang, Q. Guo, D. S. Su*, Fabrication of porous Sn-C composites with high initial coulomb efficiency and good cyclic performance for lithium ion batteries. J. Mater. Chem.

8) H. H. Wang, Z. H. Sun*, Y. Yang, D. S. Su*, The growth and enhanced catalytic performance of Au@Pd core-shell nanodendrites. Nanoscale

9) H. T. Zhao, Y. C. Du*, L. L. Kang, P. Xu, L. Du, Z. H. Sun*, X. J. Han*, Precursor-directed synthesis of quasi-spherical barium ferrite particles with good dispersion and magnetic properties. CrystEngComm

10) D. H. Zhang, C. Zhou, Z. H. Sun, L. Z. Wu, C. H. Tung, T. R. Zhang*, Magnetically recycable nanocatalysts (MRNCs): a versatile intergration of high catalytic activity and facile recovery. Nanoscale

11) J. Zhang, R. Wang, E. Z. Liu, X. F. Gao, Z. H. Sun, F. –S. Xiao*, D. S. Su*, Spherical structures composed of multiwalled carbon nanotubes: formation mechanism and catalytic performance. Angew. Chem. Int. Ed.

12) Z. H. Sun*, Z. H. Bao, C. H. Fang, J. F. Wang*, Formation of different gold nanocrystal core-resin shell structures through the control of the core assembly and shell polymerization. Langmuir

13) H. H. Wang, Z. H. Sun*, Q. H. Lu, F. W. Zeng, D. S. Su*, One-pot synthesis of (Au nanorod)-(metal sulfide) core-shell nanostructures with enhanced gas-sensing property. Small

14) F. W. Zeng, Z. H. Sun, X. G. Sang, D. Diamond, K. T. Lau, X. X. Liu*, D. S. Su*, In situ one-step electrochemical preparation of graphene oxide nanosheet-modified electrodes for biosensors. ChemSusChem

15) Z. H. Bao, Z. H. Sun*, Z. F. Li, L. W. Tian, T. Ngai, J. F. Wang, Plasmonic gold-superparamagnetic hematite heterostructures. Langmuir

16) Z. H. Bao, Z. H. Sun, M. D. Xiao, H. J. Chen, L. W. Tian, J. F. Wang, Transverse oxidation of gold nanorods assisted by selective end capping of silver oxide. J. Mater. Chem

17) Z. H. Bao, Z. H. Sun, M. D. Xiao, L. W. Tian, J. F. Wang, Hydrothermal transformation from Au core-sulfide shell to Au nanoparticle-decorated sulfide hybrid nanostructures. Nanoscale

18) H. J. Chen, L. Zhao, T. Ming, Z. H. Sun, C. M. Zhao, B. C. Yang, J. F. Wang, Understranding the photothermal conversion efficiency of gold nanocrystals. Small

19) W. H. Ni, H. J. Chen, J. Su, Z. H. Sun, J. F. Wang, H. K. Wu, Effects of dyes, gold nanocrystals, pH, and metal ions on plasmonic and molecular resonance coupling. J. Am. Chem. Soc

20) Z. H. Sun, Z. Yang, J. H. Zhou, M. H. Yeung, W. H. Ni, H. K. Wu, J. F. Wang, A general approach to the synthesis of gold-metal sulfide core-shell and heterostructures. Angew. Chem. Int. Ed

21) H. J. Chen, Z. H. Sun, W. H. Ni, K. C. Woo, H. -Q. Lin, J. F. Wang, Plasmon coupling in clusters composed of two-dimensionally ordered gold nanocubes. Small

22) Z. Yang, L. Li, Z. H. Sun, T. Ming, G. S. Li, J. F. Wang, J. C. Yu, Direct encoding of silica submicrospheres with cadmium telluride nanocrystals. J. Mater. Chem

23) X. S. Kou, Z. H. Sun, Z. Yang, H. J. Chen, J. F. Wang, Curvature-directed assembly of gold nanocubes, nanobranches, and nanospheres. Langmuir

24) Z. H. Sun, W. H. Ni, Z. Yang, X. S. Kou, L. Li, J. F. Wang, pH-controlled reversible assembly and disassembly of gold nanorods. Small

25) Z. H. Sun, L. F. Wang, P. P. Liu, S. C. Wang, B. Sun, D. Z. Jiang, F. -S. Xiao, A magnetically motive porous sphere composite and its excellent property for removal of pollutants in water by adsorption and desorption recycles. Adv. Mater.

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