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Berkeley Lab Projects Could Save California More Than $2 Billion Annually in Energy Costs

Mobile phone connected with house appliances, internet of things flat seamless pattern on white

Plug loads, or devices that plug into the wall, are responsible for at least 25 percent of electricity use in California buildings. And not only is that percentage growing, it’s a hard number to manage.

New Carbon Capture Membrane Boasts CO2 Highways

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A new, highly permeable carbon capture membrane could lead to more efficient ways of separating carbon dioxide from power plant exhaust, preventing the greenhouse gas from entering the atmosphere and contributing to climate change.

Berkeley Lab to Collaborate with Small Businesses to Commercialize Clean Energy Products

ABPDU Biofuel processing lab - 07/09/2015.

Lawrence Berkeley National Laboratory will partner with four clean energy small businesses to accelerate the commercialization of their innovative bioenergy, buildings, and vehicle technologies as part of the Small Business Vouchers (SBV) pilot launched in July 2015 by the U.S. Department of Energy.

Cyclotron Road Announces the Selection of its Second Cohort of Innovators

Chris Kaffer (foreground) and Philip Taynton are among nine innovators that have been selected for Cyclotron Road's second cohort. They are developing fully recyclable advanced composites with reduced cure times for improved manufacturing efficiency.

Today, Berkeley Lab’s Cyclotron Road program announced the selection of its second cohort of innovators, whose projects include next generation batteries, advanced materials, biomanufacturing, and solar technologies. Cyclotron Road recruits entrepreneurial researchers and embeds them at Berkeley Lab for up to two years in a mentored technology entrepreneurship program.

Modernizing a Technology From the Vacuum Tube Era To Generate Cheap Power

Hand-built research converters and thermionic demonstration device heated with a flame to produce power. (GE Research, 1960s)

When scientists Daniel Riley and Jared Schwede left Stanford University last year to join Cyclotron Road, Lawrence Berkeley National Laboratory’s program for entrepreneurial researchers, their vision was to take thermionics, an all-but-forgotten technology, and develop it into a clean, compact, and efficient source of power.

Technique Matters: A Different Way to Make a Cathode May Mean Better Batteries

Berkeley Lab researcher Marca Doeff (Credit: Kelly Owen/Berkeley Lab)

Lithium nickel manganese cobalt oxide, or NMC, is one of the most promising chemistries for better lithium batteries, especially for electric vehicle applications, but scientists have been struggling to get higher capacity out of them. Now researchers at Lawrence Berkeley National Laboratory have found that using a different method to make the material can offer substantial improvements.

Cool Roofs in China Offer Enhanced Benefits During Heat Waves

The greater urban area of Guangzhou is outlined in the center of each figure. A midday urban heat island effect is clearly visible. The results of increased roof albedos are shown in the righthand column.

It is well established that white roofs can help mitigate the urban heat island effect, reflecting the sun’s energy back into space and reducing a city’s temperature under normal weather conditions. In a new study of Guangzhou, China, Berkeley Lab researchers working with Chinese scientists found that during a heat wave, the effect is significantly more pronounced.

New Hybrid Electrolyte For Solid-State Lithium Batteries

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Scientists at Lawrence Berkeley National Laboratory have developed a novel electrolyte for use in solid-state lithium batteries that overcomes many of the problems that plague other solid electrolytes while also showing signs of being compatible with next-generation cathodes.

Team of Appraisers Across Six States Find Home Buyers Will Pay Premium for Solar Homes

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Photovoltaics added value to homes in six markets, according to a new report led by a Berkeley Lab researcher and a home appraisal expert. Seven appraisers from across six states determined the value that PV systems added to single-family homes.

A New Way to Look at MOFs

A technique called “gas adsorption crystallography” that provides a new way to study the process by which metal–organic frameworks (MOFs) store immense volumes of gases such a carbon dioxide, hydrogen and methane. (Image by Hexiang Deng)

An international collaboration led by Berkeley Lab’s Omar Yaghi has developed a technique called “gas adsorption crystallography” that provides a new way to study the process by which metal–organic frameworks (MOFs) are able to store immense volumes of gases such as carbon dioxide, hydrogen and methane.