Researchers have developed porous pellets made from magnetic framework composites (MFCs) that can effectively trap CO2 from ...

Researchers create strong, energy-efficient carbon capture pellets using magnetic framework composites to capture CO2.

Sponge-like pellets may hold the key to preventing CO₂ from entering the atmosphere, supporting future net zero ambitions, a ...

Capturing carbon dioxide (CO₂) from industrial processes is a necessary step to achieve net-zero greenhouse gas emissions and ...

Sponge-like pellets may hold the key to preventing CO2 from entering the atmosphere, supporting future net zero ambitions, a ...

To 3D print superconducting ceramics, scientists start with a ‘precursor powder’: a finely milled mix of chemical compounds ... or trapping a strong magnetic field. A monocrystalline superconductor ...

Scientists from Universidad Carlos III de Madrid (UC3M) and Harvard University have experimentally demonstrated that it is possible to reprogram the mechanical and structural behavior of innovative ...

The integration of flexible magnets in metamaterials allows for reprogrammable structures, offering vast potential in robotics and biomedical engineering.