Porous organic crystals with superior properties as CO2 adsorbents were created by researchers at Institute of Science Tokyo.

The microarchitecture of fossil pterosaur bones could hold the key to lighter, stronger materials for the next generation of aircraft, new research has found. Scientists from The University of ...

A new study sheds light on how the extreme miniaturization of thin films affects the behavior of relaxor ferroelectrics -- materials with noteworthy energy-conversion properties used in sensors, ...

Researchers at Tel Aviv University have developed a groundbreaking method to transform graphite into materials with ...

Caltech researchers demonstrated a new method to use light to control active matter—a kind of material made up of individual ...

Researchers create ultra-strong, lightweight carbon structures using AI and advanced manufacturing. Researchers at the ...

These non-living materials will have capabilities including self-healing, adaptation, growth, and programmability.

A research team has developed a revolutionary two-dimensional polyaniline (2DPANI) crystal that overcomes major conductivity ...

The unique structure of PAMs has the potential to transform industries, from healthcare to robotics, by offering properties never before seen in materials science. PAMs represent a bold step forward ...