In numerous scientific fields, high-throughput experimentation methods combined with artificial intelligence (AI) show great ...

Tarun Kapoor is tackling a deceptively tricky biochemical challenge: how to speed up the internal machinery of living cells.

Crops increasingly need to thrive in a broader range of conditions, including drought, salinity, and heat. Traditional plant ...

Researchers develop new process for lithium-metal solid-state batteries, improving safety, stability, and energy density for ...

Explore how ceramic membranes are transforming industrial filtration, delivering superior efficiency, durability, chemical ...

A new JSTAT study shows how to compute the minimum energy cells use to sustain certain metabolic pathways while suppressing ...

Living cells pay a hidden energy price not just to run chemical reactions, but to keep them on track and block all the ...

Developed for resistance to heat, water, and chemical degradation, PFAS enabled advances across consumer products, industrial ...

A new two-electron bromine chemistry sharply cuts corrosion while boosting performance, opening a clearer path for zinc–bromine flow batteries at grid scale.

That’s why a concept known as Safe and Sustainable by Design (SSbD) has recently begun spreading through the chemical ...

Seeing plastic trash while hiking inspired a Rutgers chemist to rethink why synthetic plastics last forever while natural ...