Synthetic biology, like artificial intelligence (AI) machine learning, is a relatively modern field that applies emerging technologies to achieve innovation. Now scientists at Lawrence Berkeley National Laboratory (Berkeley Lab) in California have merged the two fields by creating a machine...Read more about New AI Speeds Discovery in Synthetic Biology
The sheer number of C–H bonds in the precursor to the antibiotic erythromycin shows just how tricky a task it is to target a single one. The oxidation of a single C–H bond (red) makes erythromycin six times more biologically active than its precursor 6-deoxy
UC Berkeley’s Greener Solutions program has been selected as one of the national grantees to receive EPA funding for a new program. This initiative partners students with companies interested in adopting sustainable chemistry. UC Berkeley’s $194,832 grant will help identify alternatives...Read more about UC Berkeley Greener Solution program receives EPA funding
Scanning tunneling microscope image of wide-band metallic graphene nanoribbon (GNR). Each cluster of protrusions corresponds to a singly-occupied electron orbital. The formation of a pentagonal ring near each cluster leads to a more than tenfold increase in the conductivity of metallic...Read more about Metal wires of carbon complete toolbox for carbon-based computers
Rebecca Pinals mixes SWNTs with fluorophore-labeled DNA to create a nanosensor, then measures their optical response as they interact with biomolecules. (Photo credit: Rebecca Pinals).
