Miniature wireless bioelectronic implants that can operate for extended periods of time can
transform how we treat disorders by acting rapidly on precise nerves and organs in a way …

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 …

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

Wireless power transmission (WPT) is a critical technology that provides an alternative for
wireless power and communication with implantable medical devices (IMDs). This article …

Wirelessly powered implants are increasingly being developed to interface with neurons in
the brain. They often rely on microelectrode arrays, which are limited by their ability to cover …

A major obstacle during the design of brain-computer interfaces is the unavailability of a
neural implantable device that is μ-scale in size and is wireless, self-powered, and long …

Wireless energy transfer is a broad research area that has recently become applicable to
implantable medical devices. Wireless powering of and communication with implanted …

This paper presents an inductive link for wireless power transmission (WPT) to mm-sized
free-floating implants (FFIs) distributed in a large three-dimensional space in the neural …

This work experimentally demonstrates the operation of a miniaturized magnetoelectric (ME)
wireless power transfer (WPT) system by incorporating a ME transducer and a suitable …

Wireless power transfer has experienced a rapid growth in recent years due to the need for
miniature medical devices with prolonged operation lifetime. The current implants utilize …