Hao Wang

TL;DR: In this article, a fully integrated wearable closed-loop system (IWCS) based on mini-invasive microneedle platform is developed for in situ diabetic sensing and treatment.

TL;DR: In this article , a transparent, stretchable, resilient, and high-performance hydrogel fiber-based bimodal sensor is fabricated by using a polyacrylamide-alginate double network hydrogels, which features high sensitivity (3.17% cm-1), wide working range (18 cm), fast response/recovery speeds (90/90 ms), and impressive pressure sensing performance, including high sensitivity, including 0.91 kPa-1, short response/response time (40/40 ms), low detection limit (63 Pa) and good linearity.

TL;DR: In this article , a high-performance NO2 sensor was fabricated by exploiting intrinsically stretchable, transparent and ion-conducting hydrogels and active metals as the novel transducing materials and electrodes, respectively.

TL;DR: In this article , the recent progresses of flexible strain sensors developed for monitoring the physiological signals are selectively reviewed, from the perspective of the possible correlation between the device microstructure and their corresponding applications.

TL;DR: In this paper , a superior humidity-sensitive ionic skin is developed based on a self-healing, stretchable, breathable, and biocompatible polyvinyl alcohol-cellulose nanofibers organohydrogel film, showing a pronounced thicknessdependent humidity-sensing performance.