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New Library of Artificial Antibodies Could Target Pathogens With Molecular Precision

A research team led by Berkeley Lab has developed a technique that could accelerate the design of artificial antibodies for biomedical applications – from sensing technologies that detect and neutralize infectious viruses and bacteria to the early detection of Alzheimer’s.

A Graphene Innovation That Is Music to Your Ears

A California-based company called GraphAudio is moving toward commercializing graphene-based audio technology developed by researchers at Berkeley Lab and UC Berkeley in an effort to stimulate an audio revolution.

How JCAP Is Making Solar Fuels Shine

As we look back at a decade of discovery, we highlight 10 scientific breakthroughs by researchers at Berkeley Lab and the Joint Center for Artificial Photosynthesis that bring us closer to a solar fuels future.

Turning Up the Heat on Antibacterial-Resistant Diseases

Scientists at Berkeley Lab’s Molecular Foundry have designed a biocompatible polymer that has the potential to advance photothermal therapy, a technique that deploys near-infrared light to combat antibacterial-resistant infections and cancer.

These Artificial Proteins Have a Firm Grasp on Heavy Metals

A team of scientists led by Berkeley Lab has developed a library of artificial proteins or “peptoids” that effectively “chelate” or bind to lanthanides and actinides, heavy metals that make up the so-called f-block elements at the bottom of the periodic table. The new library offers researchers an automated, high-throughput method for precisely designing new

Freeze Frame: Scientists Capture Atomic-Scale Snapshots of Artificial Proteins

Scientists at Berkeley Lab are the first to use cryogenic electron microscopy (cryo-EM) to image atomic changes in artificial proteins known as “peptoids.” Their findings have implications for the synthesis of soft, 2D materials for a wide variety of applications.

When Solids and Liquids Meet: In Nanoscale Detail

To better understand how a liquid interacts with the surface of a solid, Berkeley Lab researchers developed a platform to explore these interactions under real conditions at the nanoscale using a technique that combines infrared light with an atomic-scale probe.

The Beauty of Imperfections: Linking Atomic Defects to 2D Materials’ Electronic Properties

Scientists at Berkeley Lab have revealed how atomic defects emerge in TMDs (transition metal dichalcogenides), and how those defects shape the 2D material’s electronic properties. Their findings could provide a versatile yet targeted platform for designing 2D materials for quantum information science.

Go With the Flow: Scientists Design Better Batteries for a Renewable Energy Grid

Scientists at Berkeley Lab have designed an affordable ‘flow battery’ membrane that could accelerate renewable energy for the electrical grid.

A Game-Changing Test for Prion, Alzheimer’s, and Parkinson’s Diseases is on the Horizon

A new test agent can easily and efficiently detect the misfolded protein aggregates that cause devastating neurological diseases in blood samples. The technology could lead to early diagnosis of prion, Alzheimer’s, and Parkinson’s diseases for the first time.