Piezoelectric nanofiber-based acoustic biosensors for mimicking cochlear hearing system

#semiconductors #sensor #biosensor
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Abstract

The cochlear implant, currently used as a clinical treatment for hearing loss in children and adults, is a device that bypasses the damaged sensory receptor hair cells by generating electric current in response to an acoustic sound. To address its fundamental limitations of size mismatch and poor biocompatibility at the electrodes-neurons interfaces, we are developing and understanding the piezoelectric properties of piezoelectric polymeric nanofibers under acoustic stimulation and also exploring bioinspired piezoelectric polymeric nanofibre-based acoustic devices and investigating their performance for potential applications in cochlear implants and hearing systems.


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  • Date: 14 May 2024
  • Time: 11:00 AM to 12:30 PM
  • All times are (UTC+01:00) Edinburgh
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  • Lecture theatre no. 421,
  • University College London
  • London , England
  • United Kingdom WC1E 7JE
  • Building: Roberts Building
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  • Starts 07 May 2024 10:30 AM
  • Ends 14 May 2024 12:00 AM
  • All times are (UTC+01:00) Edinburgh
  • No Admission Charge

  Speakers

Prof Wenhui

Topic:

Piezoelectric nanofiber-based acoustic biosensors for mimicking cochlear hearing system

Centre of Biomaterials for Surgical Reconstruction,                   

Department of Surgical Biotechnology

Division of Surgery & Interventional Science

University College London

w.song@ucl.ac.uk

 

Biography:

Dr Wenhui Song is a professor of Biomaterials and Medical Engineering and Head of the UCL Centre for Biomaterials in Surgical Reconstruction and Regeneration, Division of Surgery and Interventional Science, University College London. She received her PhD from University of Cambridge and BEng and MSc from Beihang University (BUAA) in Materials Science and Engineering. She currently leads a multidisciplinary team to develop and explore multi-responsive functional polymers, nanomaterials, nanocomposites for applications in biosensors, soft robotics, tissue engineering and disease models for drug discovery.  She has coordinated and participated a number of major multi-disciplinary projects funded by EPSRC, BBSRC, Royal Society, Wellcome Trust, Bone Cancer Research Trust and industry.  She has authored/co-authored 100 highly-cited publications including Science, Nature, Advanced Materials etc and 4 book chapters. 




Agenda

Time: Tuesday 14th May 11:00-12:30

Format: Hybrid