Cellulose, as the most abundant natural polymer on Earth, has long captured researchers'
attention due to its high strength and modulus. Nevertheless, transferring its exceptional …

The study underscores the urgent need for sustainable waste management by focusing on
circular economy principles, government regulations, and public awareness to combat …

In cold climates, maintaining body temperature with conventional fabrics becomes
increasingly challenging, while the negative impact of heavy clothing on outdoor work is …

Flexible fibers and textiles featuring photothermal conversion and storage capacities are
ideal platforms for solar‐energy utilization and wearable thermal management. Other than …

Ionic strength sensing plays a crucial role in numerous fields, and there is an urgent demand
for portable and robust sensors with rapid and precise detection ability. This study presents …

Cellulose-based aerogel fibers are recognized as a promising candidate for wearable
thermal insulation textiles due to their high porosity, extremely low thermal conductivity, and …

A small-strain sensitive and highly compressible strain sensor is urgently required to handle
external complex pressure environments in wearable applications and artificial intelligence …

Textiles have played a pivotal role in human development, evolving from basic fibers into
sophisticated, multifunctional materials. Advances in material science, nanotechnology, and …

Nanocellulose-based materials have garnered widespread attention in the field of
wearables due to their significant advantages such as ease of modification, flexibility, and …

Under the goal of sustainable development, manufacturing continuous high-performance
fibers based on sustainable resources is one emerging research direction. However …