A study by scientists at Hunan University introduces a new hydrogen isotope separation method that leverages proton quantum ...

Better mRNA release inside cells boosts vaccine and gene editing performance, enabled by redesigned lipid molecules that grip ...

"Follow the water" has been a guiding mantra of astrobiology, and even space exploration more generally, for decades. If you want to find life, it makes sense to look for the universal solvent that ...

Water treatment technologies traditionally assume that coexisting pollutants interfere with each other, reducing cleanup efficiency.

Water treatment technologies traditionally assume that coexisting pollutants interfere with each other, reducing cleanup efficiency. A new study ...

A new study shows the potential of an MOF to capture CO2 with strong low-pressure uptake and efficient regeneration under mild conditions.

A team led by Prof. DENG Dehui and Prof. YU Liang from the Dalian Institute of Chemical Physics, along with Prof. CUI Yi from the Suzhou Institute of Nano-Tech and Nano-Bionics, developed a novel ...

A catalyst design developed in the lab of Professor Ted Sargent increases efficiency, turning captured CO₂ into high-purity ethylene for plastics and packaging.

Single-walled carbon nanotubes (SWCNTs) are atomically smooth, enabling them to transport water very efficiently at the nanoscale. This, plus advantageous electronic properties, makes SWCNTs suitable ...

A newly isolated three-atom aluminum ring reveals unexpected chemistry that could help replace costly metals used in ...

Southern Energy Renewables and the U.S. Department of Energy's (DOE's) National Laboratory of the Rockies (NLR) today ...

Yield loss is increasingly driven by molecular variability in thin films, interfaces, and contamination rather than visible defects. Reliability issues often appear first as parametric drift or margin ...