Biofilms are complex structures formed by bacteria, fungi, or even viruses on biotic and
abiotic surfaces, and they can be found in almost any part of the human body. The …

Implantable neural electrodes can record and regulate neural activities with high spatial
resolution of single-neuron and high time resolution of sub-millisecond, which are the most …

Flexible polymeric bioelectronics have the potential to address the limitations of metallic
electrode arrays by minimizing the mechanical mismatch at the device-tissue interface for …

Intracortical microelectrodes (IME) are neural devices that initially were designed to function
as neuroscience tools to enable researchers to understand the nervous system. Over the …

Electrical stimulation has been used successfully for several decades for the treatment of
neurodegenerative disorders, including motor disorders, pain, and psychiatric disorders …

Biosensor technologies are of great interest for applications in wearable electronics, soft
robotics and implantable biomedical devices. To accelerate the adoption of electronics for …

Biodegradable strain sensors able to undergo controlled degradation following implantation
have recently received significant interest as novel approaches to detect pathological tissue …

Recent studies willingly agree that conducting polymers (CPs) are attractive materials for
biomedical engineering purposes, mainly because of their unique physicochemical …

Following implantation, neuroelectrode functionality is susceptible to deterioration via
reactive host cell response and glial scar‐induced encapsulation. Within the …

By providing a bidirectional communication channel between neural tissues and a
biomedical device, it is envisaged that neural interfaces will be fundamental in the future …