Have you felt disgust when taking a walk along the riverside or plunging into the sea to escape the summer heat, only to spy ...

Plastic is made from oil and natural gas, which started out as fossilized plant and animal material. But buried deep ...

Catalytic process can transform natural polymer into customizable biodegradable plastics by Colorado State University edited by Sadie Harley, reviewed by Robert Egan Editors' notes ...

Learn how Bruker's AFM-IR technology delivers unparalleled insights into polymer composition, performance, and structure at the nanoscale.

The device successfully retained stored data for more than 10,000 seconds and distinguished between On and Off states over one million cycles.

Boltz-2 is an open-source biomolecular model achieving near-FEP accuracy with 1000x faster predictions for structure and binding affinity. Quiver AI Summary MIT and Recursion have released Boltz-2 ...

Cornell researchers developed a method using biodegradable PLGA polymers for targeted heating, offering potential in cancer treatment and noninvasive testing.

Consequently, food molecules often provide chemical scaffolds that are optimized for protein binding 49 but also have a broad range of structures and features.

For a polymer to be considered truly biodegradable, it has to be fully disassembled and microbially converted to carbon dioxide, water (or methane, in anaerobic conditions), and biomass.

Molecular design and supramolecular structure, in turn, were shown to dramatically alter hydrolytic and enzymatic release and cellular transport of DPCA. In addition to potentially expanding ...

Despite the financial benefits of recycling luminescent polymers, their complex molecular structure has hindered effective recycling methods.