Education

2019.07 - present School of Mechanical Engineering, Southwest Jiaotong University, Associate professor；

2017.07 - 2019.06 Institute of Electronic Engineering, China Academy of Engineering Physics, Assistant professor；

2012.09 - 2017.06 Tsinghua University, Materials Science and Engineering, PhD；

2008.09 - 2012.06 University of Electronic Science and Technology of China, Microelectronics, B.S.；

Research Interests

Micro-nano sensors and actuators, Flexible electronics

Selected Publications

1.       T. T. Yang, D. Xie, Z. H. Li, H. W. Zhu*. Recent advances in wearable tactile sensors: materials, sensing mechanisms and device performance. Materials Science and Engineering: R: Report, 2017, 115:1

2.     T. T. Yang, Z. H. Li*, H. W. Zhu*, et al. Tactile sensing system based on arrays of graphene woven microfabrics: electromechanical behavior and electronic skin application. ACS Nano, 2015, 9 (11): 10867. 

3.       T. T. Yang, Z. H. Li*, H. W. Zhu*, et al. Structural engineering of gold thin films with channel cracks for ultrasensitive strain sensing. Materials Horizons, 2016, 3: 248.  

4.       X. M. Li^#, T. T. Yang^#, C. T. Lin*, Y. Fang*, H. W. Zhu*, et al. Large-area ultrathin graphene films by single-step Marangoni self-assembly for highly sensitive strain sensing application.  Advanced Functional Materials, 2016, 26 (9): 1322. 

5.       Y. Wang^#, L. Wang, T. T. Yang^#, H. W. Zhu*, et al. Wearable and highly sensitive graphene strain sensors for human motion monitoring. Advanced Functional Materials, 2014, 24 (29): 4666. 

6.     T. T. Yang, Z. H. Li*, H. W. Zhu*, et al. A wearable and highly sensitive graphene strain sensor for precise home-based pulse wave monitoring. ACS Sensors, 2017, 2: 967. 

7.       T. T. Yang, Z. H. Li*, H. W. Zhu*, et al. Integration of graphene sensor with electrochromic device on modulus-gradient polymer for instantaneous strain visualization. 2D Materials, 2017, 4: 035020.

8.       Y. Wang^#, T. T. Yang^#, H. W. Zhu*, et al. Ultra-sensitive graphene strain sensor for sound signal acquisition and recognition. Nano Research, 2015, 8 (5): 1627.

9.       T. T. Yang, Z. H. Li*, H. W. Zhu*, et al. Interconnected graphene/polymer micro-tube piping composites for liquid sensing. Nano Research, 2014, 7 (6): 869. 

10.  T. T. Yang, Z. H. Li*, H. W. Zhu*, et al. Torsion sensors of high sensitivity and wide dynamic range based on a graphene woven structure. Nanoscale, 2014, 6 (21): 13053.