5123导航取五湖之利取四-欢迎莅临

1994.9-1998.7，重庆大学工程力学系、自动化系，双学士学位

1998.9-2003.1，清华大学工程力学系，固体力学博士、硕士学位

2004.9-2007.7 美国伊利诺伊大学（UIUC）机械工程系，博士后

2005.7-2006.8 美国加州理工学院（Caltech）航空系，访问博士后

2007.7-2011.12 澳门所有娱乐官方网站链，副研究员

2010.1-2010.7 美国伊利诺伊大学（UIUC）材料科学与工程系，访问学者

2011.12- 澳门所有娱乐官方网站链，教授、博导

1、 美国机械工程师学会（ASME）会刊Journal of Applied Mechanics 副主编；

2、 英国物理学会（IOP）Flexible and Printed Electronics 编辑；

3、 Nature集团 npj Flexible Electronics 编辑；

4、 《中国科学-技术科学》特邀青年编辑（青年工作委员会委员）；

5、 中国力学学会青年工作委员会副主任；

6、 中国力学学会实验力学专业委员会秘书长；

7、 中国力学学会空天与武器装备测试专业组组长；

8、 中国力学学会学科交叉与复杂环境实验方法专业组组长；

柔性电子技术、可延展集成器件与大规模制造、极端复杂环境下实验力学、航天热防护技术等

主要致力于将国家重大需求与基础研究结合，面向航天航空热防护与新兴的可穿戴柔性集成器件两大领域中的关键问题，分别发展了针对高温／超高温、可延展／超柔性等超常规环境的新型实验方法、微器件与集成技术，所发展的高温光学及其光电成像系统用于研究高温超常规环境下固体材料／结构的失效机理，所发展的柔性电子技术用于健康医疗及复杂环境下运动监测。先后主持了国家重点基础研究发展计划（973 计划）项目、国家科技重大专项、863项目、基金委近空间飞行器重大研究计划培育项目、基金委国际合作重大项目、教育部优秀博士论文基金项目等。

1. 2016年获国家杰出青年科学基金

2. 2016年获教育部青年科学奖

3. 2016年获教育部技术发明奖一等奖（排名第一）

4. 2016年获中国机械工业科学技术奖一等奖（排名第一）

5. 2016年入选全国优秀科技工作者

6. 2012年获基金委优秀青年基金

7. 2011年获第十二届中国力学学会青年科技奖

8. 2006年获全国百篇优秀博士论文奖

至今已正式发表SCI论文120多篇，英文书章1篇；

已授权国家发明专利22项，自主软件著作权4项。

代表性期刊论文:

1. Zhang, C., et al., Digital Gradient Sensing Method to Evaluate Thermal Stress at Elevated Temperatures. Experimental Mechanics, 2016. 56(6): p. 1123-1132.

2. Wang, Y.X., et al., Buckling-Based Method for Measuring the Strain-Photonic Coupling Effect of GaAs Nanoribbons. Acs Nano, 2016. 10(9): p. 8199-8206.

3. Su, H., et al., Thermal shock resistance of alumina ceramics enhanced by nanostructured conformal coatings using metal-organic frameworks. Scripta Materialia, 2016. 119: p. 38-42.

4. Su, H., et al., Synchronous Full-Field Measurement of Temperature and Deformation of C/SiC Composite Subjected to Flame Heating at High Temperature. Experimental Mechanics, 2016. 56(4): p. 659-671.

5. Fang, X.F., et al., Formation mechanisms of characteristic structures on the surface of C/SiC composites subjected to thermal ablation. Journal of the European Ceramic Society, 2016. 36(3): p. 451-456.

6. Chen, Y., et al., Biocompatible and Ultra-Flexible Inorganic Strain Sensors Attached to Skin for Long-Term Vital Signs Monitoring. IEEE Electron Device Letters, 2016. 37(4): p. 496-499.

7. Qu, Z., et al., Measurements for displacement and deformation at high temperature by using edge detection of digital image. Applied Optics, 2015. 54(29): p. 8731-8737.

8. Lu, B.W., et al., Ultra-flexible Piezoelectric Devices Integrated with Heart to Harvest the Biomechanical Energy. Scientific Reports, 2015. 5: p. 9.

9. Li, Y., et al., In situ measurement of oxidation evolution at elevated temperature by nanoindentation. Scripta Materialia, 2015. 103: p. 61-64.

10. Jia, J.M., et al., Experimental and numerical investigation on SiC coating delamination from C/SiC composites. Composites Science and Technology, 2015. 110: p. 210-216.

11. Fang, X.F., et al., Bio-Inspired Microstructure Design to Improve Thermal Ablation and Oxidation Resistance: Experiment on SiC. Journal of the American Ceramic Society, 2015. 98(12): p. 4010-4015.

12. Chen, Y., et al., Breathable and Stretchable Temperature Sensors Inspired by Skin. Scientific Reports, 2015. 5: p. 11.

13. Huang, Y., et al., Controllable wrinkle configurations by soft micro-patterns to enhance the stretchability of Si ribbons. Soft Matter, 2014. 10(15): p. 2559-2566.

14. Feng, X., et al., Review on stretchable and flexible inorganic electronics. Acta Physica Sinica, 2014. 63(1): p. 18.

15. Fang, X.F., et al., In situ observation and measurement of composites subjected to extremely high temperature. Review of Scientific Instruments, 2014. 85(3): p. 35104-35104.

16. Chen, H., et al., Interfacial Failure in Flexible Electronic Devices. Ieee Electron Device Letters, 2014. 35(1): p. 132-134.

17. Chen, H., X. Feng, and Y. Chen, Slip zone model for interfacial failures of stiff film/soft substrate composite system in flexible electronics. Mechanics of Materials, 2014. 79: p. 35-44.

18. Zhang, C.X., et al., Multiwavelength shearing interferometry for measuring the slopes, curvatures, and shapes of thin films/substrate systems. Optics Letters, 2013. 38(24): p. 5446-5449.

19. Dong, X.L., et al., Diffusion and Stress Coupling Effect during Oxidation at High Temperature. Journal of the American Ceramic Society, 2013. 96(1): p. 44-46.

20. Dong, X., et al., Full-field Measurement of Topography and Curvature by Coherent Gradient Sensing Method at High Temperature. Experimental Mechanics, 2013. 53(6): p. 959-963.

21. Chen, H., et al., Experiments and viscoelastic analysis of peel test with patterned strips for applications to transfer printing. Journal of the Mechanics and Physics of Solids, 2013. 61(8): p. 1737-1752.

22. Chen, H., X. Feng, and Y. Chen, Directionally controlled transfer printing using micropatterned stamps. Applied Physics Letters, 2013. 103(15): p. 4.

23. Jiang, D.J., et al., Rate-dependent interaction between thin films and interfaces during micro/nanoscale transfer printing. Soft Matter, 2012. 8(2): p. 418-423.

24. Feng, X., et al., Stretchable Ferroelectric Nanoribbons with Wavy Configurations on Elastomeric Substrates. Acs Nano, 2011. 5(4): p. 3326-3332.

25. Feng, X., et al., Wrinkles formation and evolution of nanoribbons with finite length on elastomeric substrate. Applied Physics Letters, 2011. 99(14): p. 3.

26. Dong, X.L., et al., Full-field measurement of nonuniform stresses of thin films at high temperature. Optics Express, 2011. 19(14): p. 13201-13208.

27. Park, S.I., et al., Theoretical and Experimental Studies of Bending of Inorganic Electronic Materials on Plastic Substrates. Advanced Functional Materials, 2008. 18(18): p. 2673-2684.

28. Feng, X., Y. Huang, and A.J. Rosakis, Stresses in a multilayer thin film/substrate system subjected to nonuniform temperature. Journal of Applied Mechanics-Transactions of the Asme, 2008. 75(2): p. 7.

29. Feng, X., Y. Huang, and A.J. Rosakis, Multi-layer thin films/substrate system subjected to non-uniform misfit strains. International Journal of Solids and Structures, 2008. 45(13): p. 3688-3698.

30. Feng, X., et al., Competing fracture in kinetically controlled transfer printing. Langmuir, 2007. 23(25): p. 12555-12560.