Research pertaining to conductive polymers has gained significant traction in recent years,
and their applications range from optoelectronics to material science. For all intents and …

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

Autograft replaced by a nerve guidance conduit (NGC) is challenging in peripheral nerve
injury because current NGC is still limited by precise conductivity and excellent …

A key issue in the realization of retinal prosthetic devices is reliable transduction of
information carried by light into specific patterns of electrical activity in visual information …

The function and longevity of implantable microelectrodes for chronic neural stimulation
depends heavily on the electrode materials, which need to present high charge injection …

In this review, the unique properties of intrinsically conducting polymer (ICP) in biomedical
engineering fields are summarized. Polythiophene and its valuable derivatives are known …

As scientists discovered that raw neurological signals could translate into bioelectric
information, brain–machine interfaces (BMI) for experimental and clinical studies have …

Neural tissue engineering presents a compelling technological breakthrough in restoring
brain function, holding immense promise. However, the quest to develop implantable …

Through recent discoveries and new knowledge among correlations between molecular
biology and materials science, it is a growing interest to design new biomaterials able to …

The emerging field of biosensors and bioelectronics seeks to exploit biology in combination
with the recent advances in engineering. Even though biomedical implants can significantly …