This research not only overcomes the challenges of balancing high temperature resistance and strength in aerogels but also provides new materials for efficient heat insulation, fire prevention, and mechanical stability under extreme conditions.
Electrically powered artificial muscle fibers, with excellent mechanical performance, flexibility, and scalability, are becoming a new power system for intelligent devices.
This work explains the relationship between atmosphere, phase composition, microstructure, and absorption performance, and also obtains ceramic nanospheres with the minimum reflection loss value of -67.03 dB.
Physicists found two ways to enhance organic semiconductors: removing more electrons than before and leveraging non-equilibrium states for better performance.
Researchers used silicon nitride nanomembranes to isolate 8-20 micron microplastics from water samples, studying their impact on cell viability, AhR activity, and IL-6 levels to assess health risks.
Bilayer borophene, with a silicon-like bandgap and superior electron mobility and light absorption, offers promising advancements for future nanoelectronics and optoelectronics.
