77779193永利集团
77779193永利集团
 

陈庆德 博士, 副教授

应用化学 超分子化学与核燃料化学

电话:010-62755200 010-62753443
传真:010-62759191
电子邮箱:qdchen@pku.edu.cn

 

个人简历

1996年,北京师范大学理学学士
1996-1999年,吉林林学院,助教
2005年,永利集团理学博士
2005-2008年,北京师范大学,博士后
2008年至今,77779193永利集团,讲师
2010年至今,77779193永利集团,副教授

研究领域与兴趣

  1. 超分子体系的辐射化学规律(如W/O微乳液中电子的产生、迁移和湮灭)研究
  2. 辐照法合成聚合物微凝胶、无机-有机杂化微凝胶、纳米粒子及纳米结构
  3. 离子印迹聚合物的合成及其在核素富集、分离中的应用

代表性论文

  1. Zhou, J.; Zhao, H. K.; Shi, J. F.; Chen, Q. D.*; Shen, X. H.* “Radiolytic Synthesis of Prismatical PbSO4 Microcrystals.” Radiat. Phys. Chem., 2014, 97, 366.
  2. Zhang, H. J.; Liang, H. L.; Chen, Q. D.*; Shen, X. H.* “Synthesis of a new ionic imprinted polymer for the extraction of uranium from seawater” J Radioanal Nucl Chem, 2013, 298, 1705.
  3. Chen, Q. D.; Shen, X. H. “Formation of Mesoporous BaSO4 Microspheres with a Larger Pore Size via Ostwald Ripening at Room Temperature” Cryst. Growth Des. 2010, 10, 3838.
  4. Chen, Q. D.; Shen, X. H.; Gao, H. C. “Radiolytic Syntheses of Nanoparticles in Supramolecular Assemblies” Adv. Colloid Interface Sci. 2010, 159, 32.
  5. Chen, Q. D.; Bao, H. Y.; Shen, X. H. “Radiolytic Synthesis of BaSO4 Microspheres” Radiat. Phys. Chem. 2008, 77, 974.
  6. Chen, Q. D.; Bao, H. Y.; Shen, X. H. “Phase Transition of CdS in the Presence of Ethylenediamine and Formation of Hollow CdS Submicron Particles with Needle-like Structure” Phase Transit. 2008, 81, 591.
  7. Chen, Q. D.; Shen, X. H.; Gao, H. C. “Formation of Solid and Hollow Cuprous Oxide Nanocubes in Water-in-oil Microemulsions Controlled by the Yield of Hydrated Electron” J. Colloid Interface Sci. 2007, 312, 272.
  8. Chen, Q. D.; Shen, X. H.; Gao, H. C. “Formation of Nanoparticles in Water-in-oil Microemulsions Controlled by the Yield of Hydrated Electron. The Controlled Reduction of Cu2+ J. Colloid Interface Sci. 2007, 308, 491.
  9. Chen, Q. D.; Shen, X. H.; Gao, H. C. “One-step Synthesis of Silver-poly(4-vinylpyridine) Hybrid Microgels by γ-Irradiation and Surfactant-free Emulsion Polymerization. The Photoluminescence Characteristics” Colloid Surface A2006, 275, 45.


如要了解更多信息,请访问 超分子化学与材料研究室主页


(2016.6更新) 

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