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 姓名:饶德伟            (硕士生导师)              
 职称:          助理研究员
 地址:江苏省镇江市学府路301号
 Telephone:
 Fax:
 E-mail:dewei@ujs.edu.cn
  研究方向:

1、理论与计算化学、材料模拟、计算物理学、材料物理与化学
2、二维材料的改性:高性能膜分离材料、储氢材料等
3、电池材料设计:锂硫电池正极材料、电解质材料设计;

  教育经历:

2013/07 – 至今,江苏大学,材料科学与工程学院,助理研究员;
2011/10 - 2012/04, 新加坡南洋理工大学,材料科学与工程学院,访问。
2007/09 – 2013/07,南京理工大学,理学院,博士研究生。

  教学经历:

暂无

  项  目:

江苏省青年基金(2014)
中国博士后科学基金(2014)
先进锂电池材料结构设计及应用技术基础研究(2015,横向子课题)

  奖  项:

待填写

  学术组织和学术活动:

待填写

  论文专著专利:

[19]  Atomic Vacancies Control of Pd-Based Catalysts for Enhanced Electrochemical Performance. Advanced Materials, 1704171 (2018).

          [18]  Self-Organization of Amorphous Carbon Nanocapsules into Diamond Nanocrystals Driven by Self-Nanoscopic Excessive Pressure under Moderate Electron Irradiation without External Heating. Small, 1702072 (2018).

        [17]  Mechanism on the Improved Performance of Lithium Sulfur Batteries with MXene-Based Additives. The Journal of Physical Chemistry C, 121, 11047-11054 (2017).

         [16]  Ultrahigh energy storage and ultrafast ion diffusion in borophene-based anodes for rechargeable metal ion batteries. Journal of Materials Chemistry A, 5, 2328-2338 (2017).

        [15]  Synthesis of Tellurium Fusiform Nanoarchitectures by Controlled Living Nanowire Modification. Journal of Physical Chemistry C, 120, 12305-12312 (2016).

         [14]  Efficient band structure tuning, charge separation, and visible-light response in ZrS2-based van der Waals heterostructures. Energy & Environmental Science, 9, 841-849 (2016).

         [13]  Mechanism of polysulfide immobilization on defective graphene sheets with N-substitution. Carbon, 110, 207-214 (2016).

         [12]  Graphdiyne as a High-Efficiency Membrane for Separating Oxygen from Harmful Gases: A First-Principles Study. Acs Applied Materials & Interfaces, 8, 28166-28170 (2016).

         [11]  Hexagonal Boron Nitride with Designed Nanopores as a High-Efficiency Membrane for Separating Gaseous Hydrogen from Methane. Journal of Physical Chemistry C, 119, 19826-19831 (2015).

         [10]  Lithium decoration of three dimensional boron-doped graphene frameworks for high-capacity hydrogen storage. Applied Physics Letters, 106 (2015).

         [9]    N-substituted defective graphene sheets: promising electrode materials for Na-ion batteries. Rsc Advances, 5, 17042-17048 (2015).

         [8]    Theoretical study of H-2 adsorption on metal-doped graphene sheets with nitrogen-substituted defects. International Journal of Hydrogen Energy, 40, 14154-14162 (2015).

         [7]    Electronic properties and hydrogen storage application of designed porous nanotubes from a polyphenylene network. International Journal of Hydrogen Energy, 39, 18966-18975 (2014).

         [6]   A promising monolayer membrane for oxygen separation from harmful gases: nitrogen-substituted polyphenylene. Nanoscale, 6, 9960-9964 (2014).

         [5]    Influences of lithium doping and fullerene impregnation on hydrogen storage in metal organic frameworks. Molecular Simulation, 39, 968-974 (2013).

         [4]    Catenated Metal-organic frameworks: Promising hydrogen purification materials and high hydrogen storage medium with further lithium doping. International Journal of Hydrogen Energy, 38, 9811-9818 (2013).

         [3]    Boron-substituted graphyne as a versatile material with high storage capacities of Li and H-2: a multiscale theoretical study. Physical Chemistry Chemical Physics, 15, 16120-16126 (2013).

         [2]    Prominently Improved Hydrogen Purification and Dispersive Metal Binding for Hydrogen Storage by Substitutional Doping in Porous Graphene. Journal of Physical Chemistry C, 116, 21291-21296 (2012)

         [1]    Lithium-doped MOF impregnated with lithium-coated fullerenes: A hydrogen storage route for high gravimetric and volumetric uptakes at ambient temperatures. Chemical Communications, 47, 7698-7700 (2011).
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