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Dr Xinge YU

Dr Xinge YU

Associate Professor

City University of Hong Kong

  • xingeyu@cityu.edu.hk
  • Bio-integrated electronics, flexible electronics; Wireless healthcare sensing; Haptic interface, e-skin

簡歷

 

Dr Xinge YU is currently an Associate Professor of Biomedical Engineering at City University of Hong Kong (CityU), associate director of the CAS-CityU Joint Lab on Robotics. Dr Yu is also the recipient of Innovators under 35 China (MIT Technology Review), NSFC Excellent Young Scientist Grant (Hong Kong & Macao), New Innovator of IEEE NanoMed, MINE Young Scientist Award.

Xinge Yu’s research group is focusing on skin-integrated electronics and systems for biomedical applications. He has published 120 papers in Nature, Nature Materials, Nature Biomedical Engineering, Nature Communications, PNAS, Science Advances etc..

 

Group website: https://yu-electronics.com/

Intelligent Skin electronics for healthcare monitoring and touch VR

 

Abstract

Soft bio-integrated electronics have attracted great attentions due to the advantages of soft, lightweight, ultrathin architecture, and stretchable/bendable, thus has the potential to apply in various areas, especially in the field of biomedical engineering. By engineering the classes of materials processing and devices integration, the mechanical properties of the flexible electronics can well match the soft biological tissues to enable measuring bio signals and monitoring human body health.

In this report, we will present materials, device structures, power delivery strategies and communication schemes as the basis for novel soft bio-integrated electronics. For instance, we will discuss a wireless, battery-free platform of electronic systems and haptic interfaces capable of softly laminating onto the skin to communicate information via spatio-temporally programmable patterns of localized mechanical vibrations. The resulting technology, which we refer as epidermal VR, creates many opportunities where the skin provides an electronically programmable communication and sensory input channel to the body, as demonstrated through example applications in social media/personal engagement, prosthetic control/feedback and gaming/entertainment. Other demonstrations will include a flexible bio piezoelectric microsystems for tissue pathology biopsies (cancer diagnosis), and skin like patches as sweat sensors for healthcare monitoring and energy harvesting.

 

 

 

 

 

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