An integrative modeling workflow to understand with atomistic precision biomolecular dynamics from high-speed atomic force ...
A new e-paper uses nanosized tunable pixels to reach the eye's resolution limit, paving the way for ultra-realistic, energy-efficient virtual displays.
By combining global experiments, physicists reveal the clearest view yet of how neutrinos change type as they move, offering ...
A new flexible, self-healing polymer with liquid metal droplets can replace circuit boards, allowing easy recycling and reuse ...
Researchers confirmed bulk altermagnetism in MnTe using resonant X-ray nanoimaging, revealing magnetic domains and enabling ...
A new method using gold flakes, salt water, and light reveals the tiny forces that bind matter and drive self-assembly, ...
In 1867, Lord Kelvin imagined atoms as knots in the aether. It was soon disproven. But a new study suggests his discarded ...
Researchers created polymer particles that mimic opal's lasting colors, offering a sustainable way to make vivid pigments for ...
Changing light's polarization can reverse the structure of a patterned light field, opening a new way to control geometry and ...
A review outlines progress in electrocatalyst design for high-current water electrolysis, highlighting scalable synthesis and ...
Using simulations, robots, and live fish, scientists have replicated the neural circuitry that allows zebrafish to react to ...
Researchers found that cycling water in nanopores of water-repellent silicon can convert mechanical energy into measurable ...
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