Living things rely on various physical, chemical, and biological interfaces, eg,
somatosensation, olfactory/gustatory perception, and nervous system response. They help …

Despite the rapid advancements made for thin-film thermoelectric materials, the rational
design of corresponding thermoelectric devices (TEDs) raises the urgent need for thermal …

With accelerating trends in miniaturization of semiconductor devices, techniques for energy
harvesting become increasingly important, especially in wearable technologies and sensors …

The design of power supply systems for wearable applications requires both flexibility and
durability. Thermoelectrochemical cells (TECs) with large Seebeck coefficient can efficiently …

With the advent of flexible and wearable electronics and sensors, there is an urgent need to
develop energy‐harvesting solutions that are compatible with such wearables. However …

Implantable electronic devices have been evolving at an astonishing pace, due to the
development of fabrication techniques and consequent miniaturization, and a higher …

Thermoelectric generators (TEGs) demonstrate great potential for flexible and wearable
electronics due to the direct electrical energy harvested from waste heat. Good wearability …

This paper presents a 10 nW-1 μW power management IC with 3.2 nW quiescent power
consumption for solar energy harvesting applications. The chip integrates a switch matrix …

In this paper, we present an all-digital ring oscillator (RO)-based Bluetooth low-energy (BLE)
transmitter (TX) for ultra-low-power radios in short range Internet-of-Things (IoT) …

Smart implants are envisioned to revolutionize personal health care by assessing
physiological processes, for example, upon wound healing, and communicating these data …