Subject Area

1. Fundamentals of Biosensing
•    Principles of Biorecognition and Signal Transduction
•    Electrochemical and Optical Biosensors
•    Microfluidics and Lab-on-a-Chip Technologies

2. Materials & Nanotechnology
•    Nanomaterials for Biosensing Applications
•    Conductive Polymers and Smart Materials
•    Surface Functionalization and Biointerfaces

3. Bioelectronics & Device Engineering
•    Bioelectronic Circuits and Microsystems
•    Flexible and Wearable Bioelectronics
•    Wireless and Implantable Devices

4. Healthcare & Clinical Applications
•    Point-of-Care Diagnostic Systems
•    Continuous Glucose and Metabolite Monitoring
•    Biosensors for Infectious Disease Detection

5. Environmental & Agricultural Applications
•    Sensors for Water, Soil, and Air Quality
•    Agricultural Biosensors and Smart Farming
•    Biosensors in Food Safety and Quality Control

6. Energy & Sustainability
•    Biofuel Cells and Energy Harvesting Devices
•    Green Materials and Sustainable Fabrication
•    Waste-to-Energy Bioelectronic Systems

7. Computational & Data-Driven Biosensing
•    AI and Machine Learning for Biosensor Data
•    IoT-Enabled Biosensor Networks
•    Big Data Analytics in Bioelectronics

8. Emerging Frontiers & Interdisciplinary Fields
•    Organ-on-a-Chip and In-Vitro Models
•    Neuroelectronics and Brain–Computer Interfaces
•    Synthetic Biology for Sensing Platforms

9. Translational Research & Policy
•    Clinical Trials and Regulatory Pathways for Biosensors
•    Commercialization, Startups, and Industry Perspectives
•    Ethical, Legal, and Social Implications in Bioelectronics
•    Education and Capacity-Building in Biosensor Science