Many households in impoverished regions around the world are starting to shift away from inefficient and polluting fuel-based lighting—such as candles, firewood, and kerosene lanterns—to solar-LED systems. While this trend has tremendous environmental benefits, a new study by Berkeley Lab has found that it spurs economic development as well, to the tune of 2 million potential new jobs.
Billions of gallons of water are used each day in the United States for energy production—for hydroelectric power generation, thermoelectric plant cooling, and countless other industrial processes, including oil and gas mining. And huge amounts of energy are required to pump, treat, heat, and deliver water. This interdependence of water and energy is the focus of a major new research effort at Lawrence Berkeley National Laboratory.
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.
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.
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.
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.
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.