Analyze the theoretical foundations of bioelectronics and its applications in interfacing biological systems with electronic devices.
Bioelectronics involves concepts such as biosensors, neural interfaces, and bio-inspired computing, enabling the development of implantable medical devices, bioelectronic prostheses, and neural implants for healthcare and biomedical research.
By understanding the physiological signals, bioelectrochemical processes, and biocompatibility requirements, engineers can design bioelectronic systems that monitor health parameters,
restore sensory functions, and interface with the nervous system, improving diagnosis, treatment, and rehabilitation outcomes for patients with neurological disorders and chronic diseases.