Publications by authors named "Kangyu Jia"
The tremendous progress of the wearable intelligent system has brought an urgent demand for flexible pressure sensors, especially for those possessing high sensing performances, simple manufacture technology, and efficient integration. In this work, hierarchical core-shell piezoresistive yarns (HCPYs), which contain internal silver-plated nylon electrodes and surface microporous structured carbon nanotubes (CNTs)/thermoplastic polyurethane (TPU) sensing layer, are designed and manufactured via facile wet-spinning accompanied by a water vapor coagulating bath. The obtained HCPY can either be inserted into traditional textiles to assemble a single-pressure sensor, or be woven into a textile-based flexible pressure sensors array with expected size and resolution, without compromising their comfort, breathability, and three-dimensional (3D) conformability.
View Article and Find Full Text PDFNovel Retroreflective Structural Color Films Based on Total Internal Reflection Interference.
J Colloid Interface Sci
September 2021
Structural color materials have tremendous applications and been extensively investigated in the past decades. Most of them involve either nanoscale periodic photonic crystal structure or film interference mechanisms. Herein, we report a novel retroreflective structural color film (RSCF) based on a combined effect of interference and total internal reflection (TIR).
View Article and Find Full Text PDFArticle Synopsis
- The rapid advancement of wearable tech, humanoid robots, and AI necessitates highly flexible and sensitive sensors that can adapt to irregular surfaces and comfortably detect stress variations.
- The unique construction of conductive fiber assemblies allows these sensors to effectively respond to external pressure changes, making them suitable for piezoresistive applications as the mechanical and conductive properties can be optimized by manipulating fiber characteristics.
- The proposed flexible piezoresistive sensor demonstrated impressive performance metrics, including high sensitivity, quick response times, and stable durability over extensive cycling tests.