For implantable medical devices, it is of paramount importance to ensure uninterrupted
energy supply to different circuits and subcircuits. Instead of relying on battery stored energy …

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 …

Modern healthcare is transforming from hospital-centric to individual-centric systems.
Emerging implantable and wearable medical (IWM) devices are integral parts of enabling …

The Internet of Things (IoT) is a megatrend that cuts across all scientific and engineering
disciplines and establishes an integrating technical evolution to improve production …

Microfabrication techniques that allow the integration of all the components in compact and
effective volumes, along with the developments observed in sensor and actuator …

Implantable technologies are becoming more widespread for biomedical applications that
include physical identification, health diagnosis, monitoring, recording, and treatment of …

This article demonstrates a fiber-based power-by-light system that is capable of delivering
up to 6.2 W of continuous electrical power at common voltages of 3.3 and 5 V. This optical …

Nanostructured forms of diamond have been recently considered for use in a variety of
medical devices due to their unusual biocompatibility, corrosion resistance, hardness, wear …

Despite possessing higher tissue transmittance and maximum permissible exposure power
density for skin relative to other electromagnetic waves, second near‐infrared light (1000 …

Harvesters for implantable medical applications need to generate enough energy to power
their loads, but their efficiency is reduced when implanted under the tissue. Conventional …