Fibers, originating from nature and mastered by human, have woven their way throughout
the entire history of human civilization. Recent developments in semiconducting polymer …

Bioelectronics have made strides in improving clinical diagnostics and precision medicine.
The potential of bioelectronics for bidirectional interfacing with biology through continuous …

The combination of optogenetics and electrophysiological recording enables high-precision
bidirectional interactions between neural interfaces and neural circuits, which provides a …

The application areas of electrically conductive polymers have been steadily growing since
their discovery in the late 1970s. Recently, electrically conductive polymers have found their …

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 …

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 …

Abstract Study design Systematic review. Objectives Over the past decade, an increasing
number of studies have demonstrated that epidural spinal cord stimulation (SCS) can …

Electrodes with nanostructured surface have emerged as promising low-impedance neural
interfaces that can avoid the charge‐injection restrictions typically associated to …

Neural interface devices interact with the central nervous system (CNS) to substitute for
some sort of functional deficit and improve quality of life for persons with disabilities. Design …

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