Researchers have demonstrated the use of a technique known as small angle neutron scattering (SANS) to study the effects of ions moving into nanoscale pores. The study is believed to be the first ...

Physical adsorption experiments studying the structural aspects of microporous materials require measurements at substantially lower relative pressures than measuring mesoporous materials. The ...

High-throughput process development (HTPD) based on combining digital twins and experimental results speeds process development and helps scientists perform more screenings with fewer experiments. A ...

A research team unveils a microwave-assisted, two-step activation strategy that converts corn straw into a hierarchically porous biochar capable of efficiently capturing CO₂.

A considerable amount of research is being conducted in the use of materials as a hydrogen storage medium. A wide range of microporous materials are being studied as potential storage media. The ...

A research team demonstrates that common agricultural and forestry residues—flax shives and eucalyptus sawdust—can be transformed into powerful magnetic carbon-based adsorbents capable of removing the ...

Sorbent materials, which can take up and reversibly store gases and vapours, have a lot of potential to alleviate challenges in energy efficiency, climate change, and sustainability. 1 They offer ...