Combining biology with electronic and microsystem technologies, Bioelectronics & BioMEMS is redefining the interface between living systems and devices. This field involves the development of microelectromechanical systems (MEMS) and nanoscale biosensors that can detect biological signals, deliver therapeutics, or stimulate tissues in real time. Applications include neural implants, glucose monitors, lab-on-chip diagnostics, and wearable health trackers. Materials such as conductive polymers, stretchable electronics, and biocompatible coatings are key to advancing device integration with biological tissues. Bioelectronics & BioMEMS also plays a pivotal role in developing organ-on-chip platforms for drug screening and disease modeling. As healthcare shifts toward personalized, continuous monitoring, the precision and miniaturization enabled by this field are critical in making biomedical devices smarter, faster, and more responsive to patient needs.
Title : Biotech innovations: Bioengineering potential for novel biomanufacturing systems
Murray Moo Young, University of Waterloo, Canada
Title : Targeting noncanonical epitopes in anti-cancer immunotherapy
Michele Mishto, Francis Crick Institute, United Kingdom
Title : Eliminating implant infection: 30,000 nanotextured implants in humans with no failure
Thomas J Webster, Interstellar Therapeutics, United States
Title : Stem cell therapy: An affordable healthcare therapy for various diseases
Anant Marathe, Total Potential Cells (P) Ltd, India
Title : Information leakage: Types, remedies, and open problems
Julia Sidorova, Centro de Investigación Biomédica En Red Enfermedades Hepáticas y Digestivas (CIBEREHD), Spain
Title : Development and characterization of exo-ITC: A fibrous bilayer exosome delivery system for dermatological applications
Luis Jesus Villarreal Gomez, Universidad Autonoma de Baja California, Mexico