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Recent advances allow electronic materials to reshape themselves, leading researchers to envision artificial organisms made of self-assembling, self-repairing electronic modules.
Researchers develop cell membrane-coated magnetic nanoparticles that leverage abilities to both target circulating tumor cells and evade white blood cells, enabling isolation of scarce circulating tumor cells from blood with 10x higher purity.
The Synthescope concept represents a visionary fusion of synthesis with atomic-scale fabrication in the field of materials science.
Researchers have developed 2D perovskite memristors that strengthen electrical resistance in response to light, mimicking learning in biological synapses. This could enable neuromorphic AI that learns autonomously through experience.
Researchers demonstrate a technique to harness electrochemical energy released when the oxide layer on liquid metals reforms after being ruptured. This approach enables new kinds of soft, stretchable batteries and self-powered devices.
Explore the recent scientific advancement where engineered nanoparticle roughness is used to create stable, continuous emulsion networks. This innovation opens up potential applications in areas ranging from drug delivery systems to environmental purification processes.
Researchers develop light-responsive metal-organic frameworks that can reversibly adsorb and release salt ions from water when illuminated, showing potential for more sustainable desalination.
Rresearchers report a new liquid templating strategy for engineering highly tunable, durable aerogels. The customizable gels showed improved emi shielding and record oil absorption.