Invasive brain–machine interfaces can restore motor, sensory and cognitive functions.
However, their clinical adoption has been hindered by the surgical risk of implantation and …

To date, a wide variety of neural tissue implants have been developed for neurophysiology
recording from living tissues. An ideal neural implant should minimize the damage to the …

Implantable electronics are of great interest owing to their capability for real-time and
continuous recording of cellular–electrical activity. Nevertheless, as such systems involve …

In recent years, several new applications of SiC (both 4H and 3C polytypes) have been
proposed in different papers. In this review, several of these emerging applications have …

Silicon carbide (SiC) is a highly robust semiconductor material that has the potential to
revolutionize implantable medical devices for human healthcare, such as biosensors and …

A search of the recent literature reveals that there is a continuous growth of scientific
publications on the development of chemical vapor deposition (CVD) processes for silicon …

Wearable and implantable bioelectronics have experienced remarkable progress over the
last decades. Bioelectronic devices provide seamless integration between electronics and …

The lifetime of neural implants is strongly dependent on packaging due to the aqueous and
biochemically aggressive nature of the body. Over the last decade, there has been a drive …

This article presents the system architecture for an implant concept called NeuroBus. Tiny
distributed direct digitizing neural recorder ASICs on an ultra-flexible polyimide substrate are …

The application of electronics to biological systems has rapidly developed over the last
century, facilitating significant advances in the diagnosis and therapy of a large range of …