An encapsulated graphene oxide/silk protein aerogel fiber made by coaxial spinning is reported to exhibit ultra-high mechanical properties. The aerogel fiber showed efficient performance in thermal management applications.
Core–sheath phase change fibers provide an innovative strategy for precise thermal regulation, scalable PCM encapsulation, and multifunctional integration, offering scalable routes toward advanced thermal management and sustainable energy systems.
This perspective summarizes recent advances in electrochemical humidity sensors and mainly focuses on three aspects: working principles; humidity sensing and power generation performances; self-powered humidity detection system.
Microfluidic spinning enables precise control of fiber architectures and multifunctional integration. This review summarizes principles, structures, and wearable applications of microfluidic-spun fibers.
MD simulations of nanoindentation on bilayer composite films (Ag as the upper layer and PMMA as the lower layer) supported by an Si substrate were performed in order to determine the Young's moduli and deformation mechanisms of the composite films.