Experience

Nankai University
• China
• Higher Education
• 700 & Above Employee
• Research Fellow

  • May 2021 - Present


Research Center for Smart Sensing, Zhejiang Lab

• Associate Research Fellow

  • Nov 2018 - Feb 2021

  Research on printed wearable electronics and tactile sensing system Research on printed wearable electronics and tactile sensing system



Nagoya University

• Japan
• Higher Education
• 300 - 400 Employee

• Postdoctoral Researcher

  • Mar 2018 - Oct 2018

  Research on nanoscale patterning, flexible electronics, and femtosecond laser fabrication. Research on nanoscale patterning, flexible electronics, and femtosecond laser fabrication.



Southern University of Science & Technology

• Higher Education
• 300 - 400 Employee

• Visiting Researcher

  • Jan 2018 - Mar 2018

  Research on flexible smart materials and multi-function micro robots: ◇ Studied the working principle of the control platform for micro magnetic robots ◇ Prepared flexible material mixed with graphene oxide to achieve its thermal-induced deformation Research on flexible smart materials and multi-function micro robots: ◇ Studied the working principle of the control platform for micro magnetic robots ◇ Prepared flexible material mixed with graphene oxide to achieve its thermal-induced deformation



The University of Hong Kong

• Hong Kong
• Higher Education
• 700 & Above Employee

• PhD student in Electrical Engineering

  • 2013 - 2017

  Research on nano-magnetism and nano-fabrication: ◇ Synthesized magnetic nanoparticles in various morphology and composition ◇ Achieved controlled self-assembly of magnetic nanoparticles with highly ordered arrangement ◇ Prepared magnetic nano devices and spintronic devices with enhanced performance ◇ Fabricated nanoparticle-integrated thin film devices with novel device structure ◇ Developed flexible electronic device using nanoscale assembly and laser engraving techniques Research on nano-magnetism and nano-fabrication: ◇ Synthesized magnetic nanoparticles in various morphology and composition ◇ Achieved controlled self-assembly of magnetic nanoparticles with highly ordered arrangement ◇ Prepared magnetic nano devices and spintronic devices with enhanced performance ◇ Fabricated nanoparticle-integrated thin film devices with novel device structure ◇ Developed flexible electronic device using nanoscale assembly and laser engraving techniques



Carnegie Mellon University

• United States
• Higher Education
• 700 & Above Employee

• Research Assistant to Professor Radu Marculescu

  • Jun 2012 - Sep 2012

  Research on Multiprocessor System-on-Chip, Network-on-Chip, and protein folding problem: ◇ Developed a network-on-chip based multiprocessor platform to solve protein folding problem ◇ Designed a hierarchical parallel genetic algorithm for the basic processors in this platform Research on Multiprocessor System-on-Chip, Network-on-Chip, and protein folding problem: ◇ Developed a network-on-chip based multiprocessor platform to solve protein folding problem ◇ Designed a hierarchical parallel genetic algorithm for the basic processors in this platform

• Lab Assistant to Professor Metin Sitti

  • Sep 2010 - Dec 2011

  Research on magnetically actuated micro-objects: ◇ Fabricated magnetic micro-robots and micro-modules using MEMS fabrication techniques ◇ Implemented magnetic levitation and heterogeneous control for magnetic micro robots ◇ Studied magnetically actuated micro robots and their remote control in 3D space ◇ Fabricated micro swimming robots with flexible flagella and achieved their directional locomotion Research on magnetically actuated micro-objects: ◇ Fabricated magnetic micro-robots and micro-modules using MEMS fabrication techniques ◇ Implemented magnetic levitation and heterogeneous control for magnetic micro robots ◇ Studied magnetically actuated micro robots and their remote control in 3D space ◇ Fabricated micro swimming robots with flexible flagella and achieved their directional locomotion



Huazhong University of Science and Technology

• Higher Education
• 700 & Above Employee

• Research Student

  • Dec 2008 - Jun 2010

  Research on automatic micro-assembly system for manufacturing micro mechanical components: ◇ Built a high-precision micro-gripper driven by piezoelectric actuators for micro assembly tasks ◇ Optimized the force sensing circuit for the micro-gripper and improved its performance ◇ Proposed an efficient strategy for micro-assembly based on collaboration of double manipulators Research on automatic micro-assembly system for manufacturing micro mechanical components: ◇ Built a high-precision micro-gripper driven by piezoelectric actuators for micro assembly tasks ◇ Optimized the force sensing circuit for the micro-gripper and improved its performance ◇ Proposed an efficient strategy for micro-assembly based on collaboration of double manipulators