Researchers have developed a sustainable catalyst that increases its activity during use while converting carbon dioxide (CO2 ...

Micro- and nanoscale plastic particles in soil and water can significantly increase how much toxic chemicals plants and human intestinal cells absorb, according to two new studies from Rutgers Health ...

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

Researchers use cryo-electron microscopy to reveal how sodium ions power bacterial flagellar motors, providing insights for ...

A nanoscale tin catalyst boosts sustainable conversion of CO2 into valuable products, offering a blueprint for ...

Scientists have elucidated how hydrogen and carbon monoxide is adsorbed into solids containing a crown-motif structure of ...

Micro- and nanoscale plastic particles can greatly increase how much toxic chemicals enter plants and human cells.

By fusing circular dichroism with high-resolution microspectroscopy and microscopic imaging, this cutting-edge technology is ...

Researchers have developed a sustainable catalyst that increases its activity during use while converting carbon dioxide (CO2) into valuable products. This discovery offers a blueprint for designing ...