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 : Renewed novel biotech ideas, with bioreactor bioengineering economic impact
Murray Moo Young, University of Waterloo, Canada
Title : Osmotic lysis–driven Extracellular Vesicle (EV) engineering
Limongi Tania, University of Turin, Italy
Title : Bioherbicides for eco-friendly weed management: From fields to commercialization, constraints and solutions for sustainable agriculture
K R Aneja, Kurukshetra University, India
Title : Predicting wound closure and future segmentation masks in wound healing assays
Alfredo De Cillis, Univeristy of Salento, CNR Nanotec, Italy
Title : Utilizing complex coacervation to promote the controlled crystallization of hydrophobic drugs
Anvesha Subramanian, University of Houston, United States
Title : Improving health in over 40,000 patients: The impact of nanomedicine fighting antibiotic resistant infections
Thomas J Webster, Brown University, United States