Plant robotics shows how living movement and sensing can power biodegradable machines that work with natural environments, ...
Glioblastoma tumors form from brain cells called astrocytes and are the most common kind of brain cancer, affecting roughly ...
A porous hydrogel composite prevents MXene collapse and rapid oxidation, creating a stable semiconducting network that ...
Researchers used pulsed light to launch strong shear hypersound in metal halide perovskites, pointing to their use in ...
A water soluble carbon nanodot ink produces bright long lasting invisible prints with micrometer scale detail and high ...
A soft microrobot with zinc oxide nanorods uses ultrasound to generate localized reactive oxygen species, offering a precise ...
A flexible optical identifier uses polarized emission from self-assembled crystal films to create two stable states that ...
Scientists have developed a more heat-resistant material that keeps next-generation solar cells running more efficiently to ...
Ferroelectric fluids use a strong transverse electrostatic force to climb 80 mm, enabling lightweight, low-voltage motors and ...
A new review shows how MXenes unite sensing and computing, enabling low power devices that see, touch and smell their environment while learning in real time.
As global temperatures rise and heatwaves intensify, a new textile innovation promises to keep people cooler, drier, and more ...
A food grade microneedle sensor made from gelatin and natural pigments detects fish spoilage through clear color changes and ...
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