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讲师

 

 

 


                              姓名: 冯聪  

职称:讲师

电子邮箱:fengcong@tongji.edu.cn

办公地点:德才馆413

研究方向:质子交换膜燃料电池膜电极微观结构与性能;计算材料学;微纳米力学

学习工作经历:

2011-现在  同济大学  材料科学与工程学院

2007-2010 香港城市大学 建筑与土木工程系

2004-2007 上海大学 应用数学与力学研究所

1999-2003 太原理工大学 信息与计算科学

招生要求:

品学兼优,热爱自然科学研究,对数值/模拟计算有兴趣

主持的课题:  

1. 国家自然科学基金青年项目“质子交换膜膜电极组件破坏机理的研究”(11502170

2. 高等学校博士学科点专项科研基金-新教师类“基于石墨烯的燃料电池电极材料的力学可靠性研究”(20130072120068).

3. 同济大学青年优秀人才培养计划-培育类“质子交换膜燃料电池膜电极力学稳定性研究”

4. 中央高校交叉项目“纤维混凝土抗压高延性的多尺度研究”

5. 同济大学青年优秀人才培养行动计划“碳纳米环能带结构和抗拉性能的理论研究”

授课情况:  

本科生课程《材料计算学基础》《固体物理基础》《材料物理性能》

代表性专利:

冯聪,曲坤南,一种具有催化剂梯度的膜电极,201910412175. 62019,发明专利

代表性期刊论文(*为通讯作者):  

1)       Tang SQ, Feng C*, ShenJ, Enhanced oxidation resistance of TiAlNbCr processed by isothermal forging,Journal of Alloys and Compounds, DOI: 10.1016/j.jallcom.2019.152174.

2)       Feng C, Li Y, Qu KN,Zhang ZM, He PF, Mechanical behaviors of hydrated perfluorosulfonic acidmembrane at meso and nano scales, RSC Advances 9, 2019, 9594-9603.

3)       Li Yan, Feng C*, Qu KN,He PF, Effects of water and hydrogen content on the interaction mechanismbetween particles and the mechanical properties of a Nafion-based catalystlayer, Materials Research Express, 6, 2019, 08556-13.

4)       Qu SJ, Tang SQ, Feng AH,Feng C, Shen J, Chen DL, Microstructural evolution and high-temperatureoxidation mechanisms of a titanium aluminide based alloy, ACTA Materialia 148,2018, 300-310.

5)       Feng C, He PF, Moistureand thermal expansion properties and mechanism of interaction between ions of aNafion-based membrane electrode assembly, RSC Advances 7, 2017, 34556-34566.

6)       Tang SQ, Qu SJ, Feng AH,Feng C, Shen J, Chen DL, Core-multishell globular oxidation in a new TiAlNbCralloy at high temperatures, Scientific Reports 7, 2017, 3483-8.

7)       Feng C, He PF, Themolecular model and structural stability study of a Nafion ionomer basedmembrane electrode assembly. Journal of Chemists & Chemical Engineers ofCroatia- Chemistry in Industry 65, 2016, 457-464.

8)       Feng C, He PF, Atomisticinvestigation on the diffusion mechanism of Pt nanoclusters on well-alignedmulti-walled carbon nanotubes. Computational Materials Science 103, 2015,157-164.

9)       Feng C, Wang JW, ChengYM, He PF, Liew KM, Diffusion mechanism of platinum nanoclusters onwell-aligned carbon nanotubes. RSC Advances 4, 2014, 60711-60719.

10)    Feng C, Liew KM, He PF,Wu AH, Predicting mechanical properties of carbon nanosprings based onmolecular mechanics simulation. Composite Structures 114, 2014, 41-50.

11)    Feng C, He PF, Liew KM,Xu W, Predicted mechanical properties of carbon nanotube-based structures,International Journal of Applied Mechanics 6, 2014, 1450027-15.

12)    Feng C, Liew KM,Structural stability of carbon nanosprings, Carbon 49, 2011, 4688-4694.

13)    Feng C, Liew KM,Fracture Properties of defective carbon nanorings, Journal of Computational andtheoretical Nanoscience 8 (1), 2011, 1-7.

14)    Feng C, Liew KM,Buckling behavior of armchair and zigzag carbon nanorings, Journal ofComputational and theoretical Nanoscience 7 (10), 2010, 2049-2053.

15)    Feng C, Liew KM,Energetics and structures of carbon nanorings, Carbon 47, 2009, 1664-1669.

16)    Feng C, Liew KM, Amolecular mechanics analysis of buckling behavior of carbon nanorings undertension, Carbon 47, 2009, 3508-3514.

17)    Liew KM, Feng C, ChengYM, Kitipornchai S, Complex variable moving least-squares method: a meshlessapproximation technique. International Journal for Numerical Methods inEngineering 70, 2007, 46-70.

18)    Zhang Z, Feng C, LiewKM, Three-dimensional vibration analysis of multilayered piezoelectriccomposite plates. International Journal of Engineering Science 44, 2006,397-408.

19)    冯聪,封卫兵. 一维血栓形成过程的数学模型及其非相似性解. 中国血液流变学杂志,2005, 15(4): 540-543.

20)    封卫兵,冯聪. 考虑血小板粘附性的血栓生长数学模型. 中国血液流变学杂志, 2008, 18(1): 43-44,67.

 

技术支持:维程互联