A fully biomass hydrogel made from coffee grounds and seaweed polymer turns black when wet, capturing 94% of sunlight to ...

Team uses light to control magnetic fields in quantum materials, steering resistance-free electric currents for ...

Researchers developed a microscopic thermometer smaller than an ant's antenna that can be integrated onto chips for highly efficient and precise temperature monitoring.

Water-window X-rays are useful for bioimaging because they visualise biological cells at high contrast without staining them ...

Using atom manipulation with a scanning probe microscope, the researchers created an exotic molecule, that is C13Cl2, with a ...

Strong magnetic fields keep the equator spinning faster than the poles and prevent a rotation flip, even as stars slow down ...

AI models are transforming catalyst discovery by combining databases with machine learning and language models, enabling ...

Metasurfaces featuring tailored silver nanocubes could allow thermal photodetectors to approach speeds akin to traditional digital cameras.

New geometric designs and fabrication methods are pushing tubular solid oxide fuel cells closer to commercialization for green energy systems.

Researchers developed ceramic membranes with near-defect-free surfaces that filter dyes from wastewater at tap-water pressure, cutting energy use in water treatment.

Bismuthene nanodiscs use mild heat to switch on gene editing that dismantles a tumor's heat defenses, creating a feedback loop that kills cancer cells more effectively.

Catalyst surfaces work as coordinated networks, not isolated hotspots, a new study reveals, opening doors to designing more efficient catalysts for clean energy.