Three Berkeley Lab projects were awarded more than $2 million from the DOE’s Technology Commercialization Fund (TCF) to further collaborative research and development with industry partners on radioactivity detecting technology, next generation electrodes for electrolysis of water, and high performance sustainable aviation fuel. In addition, industry partners are matching the DOE funds for an additional $2 million. A project from the Biosciences Area was among those awarded, funding the scale-up of a high-performance sustainable aviation fuel.
Jay Keasling Interviewed by Cimpatico TV on Using Bioengineering to Solve Global Challenges
Jay Keasling, Chief Executive Officer of the Joint BioEnergy Institute (JBEI) and Senior Faculty Scientist in BSE, was interviewed by Cimpatico TV on how bioengineering can solve global challenges.
Q&A: The Story Behind Our Infinitely Recyclable Plastic
A multidisciplinary Berkeley Lab team led by the Joint Bioenergy Institute’s Corinne Scown and the Molecular Foundry’s Brett Helms, has been working for several years to develop a game-changing plastic that, unlike traditional plastics, can be recycled indefinitely and is not made from petroleum. Scown and Helms spoke with Berkeley Lab on the inspiration for this plastic, shortfalls in our current recycling systems, and how this ambitious project is enabled by a diverse combination of scientific expertise.
Scientists Analyze Dry-sanitizing Device for Reusable PPE
Current methods to decontaminate PPE are successful at eradicating the virus but compromise the PPE material, ultimately increasing the wearer’s potential exposure to pathogens. But scientists at the Berkeley Lab, in collaboration with the University of Nevada, Reno (UNR) School of Medicine, have confirmed that a new dry-sanitizing device may provide a safe and reliable solution that doesn’t alter the integrity of the PPE material.
We’ve Got the Dirt on Soil Protists
A group of scientists who study the interactions between plants and microbes have published a study detailing the dynamic relationships between soil-dwelling, single-celled organisms called protists and developing plants. Protist communities near plant roots were found to respond to the different developmental stages of switchgrass, a crop with excellent potential as a bioenergy feedstock, much like bacterial communities do.
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