Steven Mills

TL;DR: The preliminary efforts to achieve a submilliwatt system ultimately powered by the energy harvested from thermal radiation and motion of the body are described with the primary contributions being an ultralow-power ozone sensor, an volatile organic compounds sensor, spirometer, and the integration of these and other sensors in a multimodal sensing platform.

TL;DR: In this paper, the authors demonstrate ultra-low power ozone sensors for real-time, continuous, and portable monitoring, which are well suited for real time, portable environmental monitoring systems.

TL;DR: In this paper, the memory operation in the MOS capacitor does not require a current flow through the gate dielectric indicating the feasibility of obtaining low power memory operations, thus, the mem-capacitive effect of volatile RRAM candidates can be attractive to the future neuromorphic systems for implementing the forgetting process of a human brain.

TL;DR: The latest advances in environmental and personal health sensors that have ultra-low power consumption and are highly selective and sensitive to enable real time, continuous, and wearable platforms are presented.

TL;DR: In this article, a room temperature NO2 sensor was demonstrated using AlGaN/GaN to increase the sensitivity to enable ultra-low power, low ppb level detection without additional heaters.