Functional materials represent a diverse class of engineered substances that not only provide structural support but also actively respond to external stimuli by converting one form of energy into ...

Researchers have pioneered a new technique called X-ray linear dichroic orientation tomography, which probes the orientation of a material's building blocks at the nanoscale in three-dimensions. First ...

The market begins at approximately USD 2,150 million in 2026 and advances steadily as electrification transforms coatings from passive protective layers into active performance enablers. By 2030, EV ...

Her research focuses on developing sustainable, solvent-free routes to functional graphene materials and translating them into high-performance advanced polymer composite systems. Her research, ...

Collaboration aims to deploy ATLANT 3D's DALP® atomic-scale technology within NUS I-FIM's robotic materials hub to support the National Research Foundation, Singapore's AI for Science Programme ...

Living fungi weave conductive nanoparticles into their own growing networks, amplifying bioelectric signals 9-fold and ...

Functional materials are physical systems engineered so that their intrinsic properties—such as electrical conductivity, magnetization, optical response, ionic mobility, or mechanical deformation—can ...

Unlike traditional databases or search engines that passively retrieve past results, AI-driven models actively learn from large datasets, simulate material behaviour, generate hypotheses and optimise ...

(Nanowerk Spotlight) Mushrooms have long been a staple in the culinary world, but their role in the sustainability movement is rapidly expanding. With global mushroom production reaching over 48 ...