Erjun Liang

TL;DR: Fano resonances in the designed structure exhibit high refractive-index sensing sensitivity and figure of merit, which have potential applications in single or double-wavelength sensing in the near-infrared region.

TL;DR: An air-flow-driven triboelectric nanogenerator for self-powered real-time respiratory monitoring by converting mechanical energy of human respiration into electric output signals and it was found that the accumulative charge transferred in breath sensing corresponds well to the total volume of air exchanged during the respiration process.

TL;DR: In this paper, a self-powered breath-based interacting method was introduced to the field of HMI technology, which can convert real-time human breathing into command signals to control electrical appliances without relying on physical movements or languages.

TL;DR: This research for the first time proposes the concept that taking the human body itself to participate in triboelectric self‐powered noncontact sensing and provides a touch‐free design concept to develop the next generation of screen sensors.

TL;DR: In this paper, the porosity effect on the output performance of the porous polytetrafluoroethylene (PTFE) S-TENG was investigated under mechanical oscillations and the optimal porosity for achieving the maximum VOC output was found to be 5.1 V when the DI water volume fraction was 50%.