郭艳辉

副教授

上海市杨浦区邯郸路220号 复旦大学材料二楼,200433 

联系方式:gyh@fudan.edu.cn

教育与科研背景

  • 2008-今:复旦大学 材料科学系
  • 2016年: 英国牛津大学 化学系 访问学者
  • 2010年: 复旦大学 材料科学系 博士后
  • 2008年: 浙江大学 材料与化学工程学院 博士
  • 2003年: 合肥工业大学 化工学院 学士

主要研究领域

  • 硼氢基材料合成与功能开发
  • BN杂环荧光材料与分子识别
  • 多功能FLPs与小分子活化

主持项目

  • 国家自然科学基金委青年基金项目
  • 上海市自然科学基金项目
  • 航天预研基金
  • 博士点基金

代表性论文:

1.    Song, Y., N. Ma, X. Ma, F. Fang, X. Chen* and Y. Guo*, Synthesis of Ammonia Borane Nanoparticles and the Diammoniate of Diborane by Direct Combination of Diborane and Ammonia. Chemistry – A European Journal, 2016. 22(18): p. 6228-6233.

2.    Huang, X., S. Li, X. Zheng, S. Yang and Y. Guo*, Combustion Mechanism of a Novel Energetic Fuel Candidate Based on Amine Metal Borohydrides. Energy & Fuels, 2016. 30(2): p. 1383-1389.

3.    Chuanlin Cai, P.Y., Jiayong Tang, Yanhui Guo*, Xiaohua Ma, Ultrathin paper-like boron-doped carbon nanosheet electrodes combined with boron-enriched gel polymer electrolytes for high-performance energy strage. Journal of Materials Chemistry A, 2016: p. 15589-15596.

4.    Zheng, X., X. Huang, Y. Song, X. Ma and Y. Guo*, Aluminum borohydride- ethylenediamine as a hydrogen storage candidate. RSC Advances, 2015. 5(128): p. 105618-105621.

5.    Song, Y., F. Wu, X. Zheng, X. Ma, F. Fang* and Y. Guo*, Stepwise combination of NH3 with BH4- in metal borohydride ammoniate. Chemical Communications, 2015. 51(6): p. 1104-1107.

6.    郑雄飞, 李永敏, 王临才, 郭艳辉*, 磁性钯碳催化剂制备与性能. 贵金属, 2014: p. 126-130.

7.    Guo, Y., M. Wang, G. Xia, X. Ma, F. Fang and Y. Deng, Advanced H2-Storage System Fabricated Through Chemical Layer Deposition in a Well-Designed Porous Carbon Scaffold. Journal of Materials Chemistry A, 2014. 2: p. 15168-15174.

8.    Guo, Y., Y. Jiang, G. Xia and X. Yu, Ammine aluminium borohydrides: an appealing system releasing over 12 wt% pure H2 under moderate temperature. Chemical Communications, 2012. 48(37): p. 4408-4410. (封面)

9.    Guo, Y.H., X.B. Yu, W.W. Sun, D.L. Sun and W.N. Yang, The Hydrogen-enriched Al-B-N system as an advanced solid hydrogen storage candidate. Angewandte Chemie-International Edition, 2011. 50: p. 1087-1091. (hot paper)

10.   Guo, Y.H., H. Wu, W. Zhou and X.B. Yu, Dehydrogenation tuning of ammine borohydrides using double-metal cations. Journal of the American Chemical Society, 2011. 133: p. 4690-4693.

11.   Guo, Y., Q. Gu, Z. Guo, J. Mao, H. Liu, S. Dou and X. Yu, A GBH/LiBH4 coordination system with favorable dehydrogenation. Journal of Materials Chemistry, 2011. 21(20): p. 7138-7144.

12.   Guo, Y.H., X.B. Yu, L. Gao, G.L. Xia, Z.P. Guo and H.K. Liu, Significantly improved dehydrogenation of LiBH4 destabilized by TiF3. Energy & Environmental Science, 2010. 3(4): p. 465-470.

13.   Guo, Y.H., G.L. Xia, Y.H. Zhu, L. Gao and X.B. Yu, Hydrogen release from amminelithium borohydride, LiBH4 center dot NH3. Chemical Communications, 2010. 46(15): p. 2599-2601.

14.   Guo, Y.H., W.W. Sun, Z.P. Guo, H.K. Liu, D.L. Sun and X.B. Yu, Dehydrogenation Promotion of LiBH4 center dot NH3 Through Heating in Ammonia or Mixing with Metal Hydrides. Journal of Physical Chemistry C, 2010. 114(29): p. 12823-12827.

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