Researchers propose building fluorescence directly into microplastic polymer structures, enabling stable real-time imaging of how particles move, accumulate, and degrade in biological systems.

A new microwave-assisted method creates nitrogen-doped ultramicroporous carbon from coal in minutes, dramatically cutting energy use while achieving high CO2 capture performance.

Next-generation model combines symbolic AI with VR to visualize and evaluate energy savings and thermal comfort in real time ...

Engineers have identified a fundamental deformation mechanism that can be leveraged to greatly enhance the fatigue properties of metals, opening the door to a new strategy for designing ...

Next-gen solar panel manufacturing could dramatically cut global carbon emissions, with newer designs outperforming current tech in nearly all environmental measures, a new study finds.

Machine learning algorithms that output human-readable equations and design rules are transforming how electrocatalysts for ...

Researchers use a machine learning approach to improve the stability and performance of antibodies inside cells.

Researchers have shown theoretically that, in highly ordered materials, heat can flow toward warmer regions without violating the laws of thermodynamics. Their work could help design electronics that ...

Scientists developed a light-responsive artificial nucleic acid that enables reversible, controllable crosslinking within DNA, opening doors for nanomedicine, DNA nanotechnologies and drug delivery.

The invention of a nanolaser is the first step towards future digital communication, where communication on microchips can be ...

Silver-coated nanopillars selectively bind glucose in sweat, producing measurable light changes. A compact LED and Bluetooth module relay readings to a phone in real time.

A new bio-inspired molecule captures solar energy and releases it as heat on demand, outperforming lithium-ion batteries ...