Mapping the blueprint of life can help us advance our understanding of Earth systems and develop innovative energy technologies and bio-based products. The Joint Genome Institute (JGI), a Department of Energy user facility, offers large-scale genomic sequencing, synthesis, and metabolomic expertise to scientists around the world. Bringing together this expertise in one facility, the JGI offers an unrivaled capacity to help us understand biology today to develop breakthroughs for tomorrow. Listen to this interview to learn how the JGI supports the research community.

Featuring: Nigel Mouncey, the Director of the DOE Joint Genome Institute at Lawrence Berkeley National Laboratory (Berkeley Lab). In addition to leading JGI, Mouncey also heads the Secondary Metabolites Program that is developing large-scale innovative approaches to study regulation and biosynthesis of secondary metabolites.

Fusion energy has the potential to transform energy supplies for the world. At the Department of Energy’s Lawrence Berkeley National Laboratory, researchers are developing the technologies and techniques needed to make fusion energy a reality. In this audio interview, hear how their interdisciplinary work is paving the way toward limitless energy for the future.

Featuring: Cameron Geddes, director of the Accelerator Technology & Applied Physics (ATAP) Division at Berkeley Lab. He leads the division in inventing, developing, and deploying particle accelerators, lasers, and photon sources to extend the frontiers of science, as well as systems for fusion and related areas of applied physics. His research focuses on the study of laser-driven plasma waves to create next-generation compact particle accelerators for high-energy physics and photon sources, advanced laser technologies, and high energy density science.

Geothermal energy taps into the Earth’s natural heat—but what happens when that heat isn’t easily accessible? Berkeley Lab scientists are working to solve that problem through enhanced geothermal systems, or EGS. In this episode, we talk with Eva Schill, program lead for geothermal systems in the Energy Geosciences Division, about the promise of EGS, what makes it different from conventional geothermal energy, and why Berkeley Lab is uniquely positioned to drive this technology forward.

Featuring: Eva Schill is the Geothermal Systems Program Lead in the Energy Geosciences Division at Berkeley Lab. With a background in geology and geophysics, Schill oversees a portfolio of projects advancing both conventional and enhanced geothermal technologies.

Biosecurity means securing society against the damaging effects of biology — anything that can harm people or resources that people care about, including plants, agriculture, and veterinary health. Learn how Berkeley Lab scientists and facilities are playing a key role in helping to ensure biosecurity for the nation.

Featuring: Harshi Mukundan is the interim department head of the Bioengineering and Biomedical Sciences Department in the Biosciences Area, and the Chemical and Biological Technologies Lead in Berkeley Lab’s Office of National Homeland Security and the Biosciences Area’s Strategic Programs Development Group. In these two roles, she leads a lab in the Biosciences Area, and a program focused on biosecurity research development.

Batteries power everything from the phone in your pocket to grid-scale energy storage, and their technology has advanced dramatically over the years. Developing reliable and efficient energy materials is crucial to this progress. For the past 30 years, the Advanced Light Source has played a key role in revolutionizing battery and energy materials research, enabling breakthroughs that drive innovation.

In this episode, we talk with Ethan Crumlin, a staff scientist and program lead specializing in battery chemistry and characterization. His work supports the development of reliable and efficient energy materials. We explore the history of the Advanced Light Source in advancing characterization techniques and discuss the groundbreaking capabilities that will drive research after the ALS upgrade.

Featuring: Ethan Crumlin, the Division Deputy for Science in the chemical sciences division and a staff scientist at Berkeley Lab’s Advanced Light Source. Crumlin leads a program that studies energy storage and conversion materials such as fuel cells, electrolyzers, catalysts, and batteries using advanced techniques.

The Advanced Light Source is home to many techniques that can reveal atomic details of molecules and materials. The Berkeley Center for Structural Biology (BCSB) leads a subset of these capabilities that are focused on elucidating the structure of biological molecules. For 25 years, pharmaceutical companies from across the nation have been collaborating with BCSB experts to study proteins related to disease. By unlocking the structures, our scientists have helped unlock treatments for a variety of conditions, including cancers and HIV. Listen to this podcast to learn more about the impact of our structural biology resources.

Featuring: Marc Allaire, a biophysicist staff scientist in the Molecular Biophysics and Integrated Bioimaging Division and head of the Berkeley Center for Structural Biology (BCSB) at the Advanced Light Source (ALS). His team uses light generated by the ALS to perform a range of structural characterization techniques. Allaire personally leads investigations using X-ray crystallography, and previously also managed small angle X-ray scattering (SAXS) studies at Brookhaven National Laboratory.

Allaire frequently collaborates with the BCSB’s large pharmaceutical user base to help enable drug discovery. In addition to the sheer quantity and diversity of structures being solved, he enjoys the challenge of working on new ways to improve crystallography technology. Notably, he helped incorporate robotics that automate sample processing at the ALS, leading to faster results and more convenient access for users.

Scientists are using light at X-ray wavelengths to reveal the secret worlds of atoms and electrons. The Advanced Light Source is a U.S. Department of Energy scientific user facility at Lawrence Berkeley National Laboratory. The ALS mission is to advance science for the benefit of society by providing world-class synchrotron light source capabilities and expertise to a broad scientific community.

Featuring: Dimitri Argyriou is director of the Advanced Light Source, providing strategic vision and overseeing facility-wide operations at one of the world’s premier X-ray synchrotron facilities. He also serves as interim director of the Advanced Light Source Upgrade project, responsible for ensuring the successful delivery of this transformative upgrade to endow the facility with revolutionary X-ray capabilities that will advance scientific innovation across materials science, chemistry, biology, and environmental science.

The Advanced Biofuels and Bioproducts Process Development Unit (ABPDU) is helping catalyze a new era of manufacturing: using biology to produce innovative materials, fuels, foods, and more. The ABPDU provides the technical resources, equipment, and expertise needed to take bench-scale discoveries all the way to market readiness. Listen to this podcast to learn more about the ABPDU’s collaborations across industry and academia.

Featuring: Deepti Tanjore, director of the ABPDU and head of the Process Engineering & Analytics department. Her research investigates how bioprocess conditions affect the health and efficiency of microbes inside bioreactors. Tanjore’s team is developing modeling methods to predict ideal conditions for different species, as well as integrated sensing tools for real-time monitoring of cultures, allowing researchers to adapt bioreactor parameters as needed.

Biomanufacturing sounds complicated, but in a simple explanation, it is using biology and biological systems to perform certain operations in the manufacturing process. The goal is to produce goods and products that can be sold in the marketplace. Listen in this episode as Blake Simmons, Division Director of Biological Systems and Engineering in the Biosciences Area of Lawrence Berkeley National Laboratory, describes how biomanufacturing supports the U.S. goal of increased domestic production.

Featuring: Blake Simmons, is the Division Director of Biological Systems and Engineering in the Biosciences Area of Lawrence Berkeley National Laboratory (Berkeley Lab).

In addition, Simmons serves as the Chief Scientific and Technology Officer and Vice President of the Deconstruction Division at the Joint BioEnergy Institute. For the past 15 years, Simmons has been part of the Senior Management team at Sandia National Laboratories, most recently serving as the Senior Manager of Advanced Biomanufacturing, Biomass Program Manager. His expertise includes biofuels, renewable chemicals, biomanufacturing, abiotic-biotic interfaces, biomass pretreatment, enzyme engineering, biofuel cells, templated nanomaterials, microfluidics, desalination, and biomineralization.

Scientific breakthroughs rely on seamless data movement, much like a circulatory system delivering vital knowledge. Energy Sciences Network (ESnet), the Department of Energy’s sole high-performance networking user facility, keeps this system running and enables breakthroughs that shape our world. Listen to this podcast where we talk about how ESnet supports the nation’s scientists.

Featuring: Inder Monga, the Director of the Scientific Networking Division at Lawrence Berkeley National Laboratory (Berkeley Lab) and Executive Director of ESnet. In addition to managing ESnet, Inder works to advance the science of networking for collaborative and distributed research applications, as well as contributes to ongoing research projects tackling quantum networking and the convergence of the application layer and the network. He is the principal investigator for the Quantum Application Network Testbed for Novel Entanglement Technology (QUANT-NET) project and the co-PI of the National Science Foundation’s FABRIC testbed project.