A new approach to trapping light waves inside tiny flat structures could enable more energy-efficient lasers in next-generation photonic devices.

A close look at an additive manufacturing technique for titanium alloys reveals how tiny process variations can shape high-performance components.

Stress-testing artificial intelligence models under real-world conditions can improve their reliability, enabling the maritime industry to embark on safer and greener voyages.

A hybrid platform for manipulating deep ultraviolet light in semiconductor materials opens new possibilities for next-generation ultraviolet photonic devices.

Bigger models are not always better, as A*STAR researchers show how a targeted AI model can beat global, general-purpose models in summarising multilingual regional news.

Controlling when a protective layer stops growing in lithium-ion batteries may be more beneficial than modifying its composition during formation.

Researchers map out a metabolic detour, engineering microbes to take the fast lane to producing citrus-scented limonene.

The internet’s latest privacy upgrades hide your data, but the patterns they leave behind can still reveal where you browse.

A new nanoscale laser uses optical origami to balance trapping and releasing light, paving the way for efficient integrated photonics.

A new cellular model of colorectal cancer helps identify high-risk subtypes likely to resist standard treatments and proliferate in response.