When molecules fall apart, their electric charge doesn't stay put—it rearranges as bonds stretch and break. An international team of scientists has now tracked these ultrafast changes in the small ...

Join this webinar to learn more about accelerating small‑molecule HPLC with a workflow driven approach for quick decisions, ...

Chemists have developed a light-driven method for producing a rare and highly strained molecular structure known as “housane.” Designing a new drug often starts with a basic but difficult task: making ...

A remarkably small bacterium containing fewer than 500 genes serves as the basis for one of the most detailed digital life ...

Researchers at the University of Jyväskylä (Finland) have developed a new class of synthetic molecules that can capture sulfate, a widespread industrial and environmental contaminant, with ...

Petrochemicals derived from oil and fossil fuels underlie the production of many consumer goods − and many you wouldn’t know from looking at the final product.

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

Born in Brooklyn in 1942, Freed’s scientific trajectory began early; he and his brother Jack, who himself would go on to ...

A team from University of Toronto Engineering is the first to synthesize long noncoding RNA (lncRNA) outside the cell—a new approach to drug discovery that has already yielded some promising ...

Every second, hundreds to thousands of molecules move through thousands of nuclear pores in each of your cells. A new high-definition view reveals the machine in action.

Explore the breakthrough of lab-made lncRNA by University of Toronto Engineering for new drug discovery potential.