Neural implants have emerged over the last decade as highly effective solutions for the
treatment of dysfunctions and disorders of the nervous system. These implants establish a …

In neurostimulation, wireless power transfer is an efficient technology to overcome several
limitations affecting medical devices currently used in clinical practice. Several methods …

Multichannel electrophysiological sensors and stimulators—particularly those used to study
the nervous system—are usually based on monolithic microelectrode arrays. However, the …

Ultra-compact wireless implantable medical devices are in great demand for healthcare
applications, in particular for neural recording and stimulation. Current implantable …

Capacitive power transfer (CPT) technology is becoming increasingly popular in various
application areas. Due to its limitations, such as low frequency, low coupling capacitance …

Wireless power and data communication systems in implantable medical devices (IMDs) are
developed to control and report acquired biological data from an implanted device to an …

Deeply implanted biomedical devices (DIBDs) are a challenging application of wireless
power transfer because of the requirement for miniaturization while minimizing patient …

Wireless technologies are incorporated in implantable devices since at least the 1950s. With
remote data collection and control of implantable devices, these wireless technologies help …

Implantable bioelectronic devices are becoming useful and prospective solutions for various
diseases owing to their ability to monitor or manipulate body functions. However …

Wireless powering could enable the long-term operation of advanced bioelectronic devices
within the human body. Although both enhanced powering depth and device miniaturization …