Implantable Flexible Electronics for Biomedical Sensing

EasyChair Preprint 14112

Abstract

This research investigates the design, fabrication, and integration of flexible and stretchable electronic devices for in-vivo biomedical sensing. The study focuses on the development of biocompatible materials that can conform to the body's tissues, ensuring long-term stability and minimal immune response. Advanced miniaturization techniques are explored to create compact, efficient, and unobtrusive implantable devices capable of monitoring various physiological parameters. Additionally, the research addresses wireless power transfer methods to enable continuous operation without the need for frequent surgical interventions. By combining these innovations, the project aims to develop highly sensitive, reliable, and durable biomedical sensors that can provide real-time health monitoring and diagnostic information, ultimately improving patient outcomes and advancing personalized medicine.

Keyphrases: Biocompatible materials, Biomedical Sensing, Health diagnostics, Miniaturization, Stretchable electronics, flexible electronics, implantable devices, in-vivo monitoring, personalized medicine, wireless power transfer

@booklet{EasyChair:14112,
  author    = {Kaledio Potter and Dylan Stilinki},
  title     = {Implantable Flexible Electronics for Biomedical Sensing},
  howpublished = {EasyChair Preprint 14112},
  year      = {EasyChair, 2024}}