Biological fluids are made up of hundreds or thousands of different proteins (represented by space filling models above) that evolved to work together efficiently but flexibly. UC Berkeley polymer scientists are trying to create artificial fluids composed of random heteropolymers (...Read more about Can synthetic polymers replace the body’s natural proteins?
Berkely Lab produces a podcast about the surprising ways that science evolves. Through conversations with scientists, they trace the technology, theories, and products we see around us today back to early discoveries in the lab, while also imagining where future...Read more about A Day in the half-life; a podcast from the Berkeley Lab
Artist’s rendering of a copper nanoparticle as it evolves during CO2 electrolysis: Copper nanoparticles (left) combine into larger metallic copper “nanograins” (right) within seconds of the electrochemical reaction, reducing CO2 into new multicarbon...Read more about How a record-breaking copper catalyst converts CO2 into liquid fuels
Using chemistry-based approaches to creating graphene nanoribbons, Fischer’s lab group has developed ways to integrate other kinds of atoms (like nitrogen) into the nanoribbons to give them new properties.Read more about Building the Materials for Next-Gen Tech
Blast disease destroys between 10% and 35% of the world’s rice harvest each year. A new discovery could lead to fungicides that block the pathogen, Magnaporthe oryzae, from entering the leaves. This photo of a healthy rice field was taken in Chengdu, China, in 2019. (Photo credit:...Read more about Discovery could lead to new fungicides to protect rice crops