Probing the vibration of atoms provides detailed information on local structure and bonding that define material properties.

A common iron mineral hiding in soil turns out to be far better at trapping carbon than scientists realized. Its surface ...

Amide bonds are common in drugs because they are chemically stable, form readily and are biocompatible. They also help ...

Process triggers protein denaturation and crosslinking to create material that gets close to imitating the strength, ...

Self-healing materials can autonomously repair damage and make bridges, roads, and aircraft more durable and sustainable.

Today, ChEmpower, a leader in semiconductor process innovation, announced Chakra™, a family of functional polishing pads, beginning with the Copper Series, designed specifically for abrasive-free ...

In a recent episode of the Huberman Lab podcast, released on Thursday, February 12, Dr. Andrew Huberman explores the biological and psychological roots of human connection. The episode, titled ...

New first-principles simulations reveal how metallic surfaces reshape nanoscale vibrational imaging, advancing the ...

Plutonium (Pu) exhibits one of the most diverse and complex chemistries of any element in the periodic table. Since its discovery in 1940, scientists have synthesized and studied many different types ...

Professor Paul Chirik leads a lab researching potential new catalysts for pharmaceutical and commercial applications.

Love isn't just poetry, it's neurobiology. Dopamine fuels desire and reward, oxytocin strengthens bonding and trust, and ...

UCLA chemists proved that some of chemistry’s oldest rules can be broken—and new molecules emerge when they are.