Start a New Search
SHOWING 5 RESULTS
Stanford researchers have developed a sodium-based battery that can store the same amount of energy as a state-of-the-art lithium ion battery, at substantially lower cost.
University Research | Research to Secure Our Energy Future | Energy Storage/Distribution | Stanford UniversityA new combination of materials developed by Stanford researchers may aid in developing a rechargeable battery able to store the large amounts of renewable power created through wind or solar sources.
University Research | Research to Secure Our Energy Future | Energy Storage/Distribution | Stanford UniversityStanford scientists have developed a manganese-hydrogen battery that could fill a missing piece in the nation’s energy puzzle by storing wind and solar energy for when it is needed, lessening the need to burn carbon-emitting fossil fuels.
University Research | Research to Secure Our Energy Future | Energy Storage/Distribution | Stanford UniversityRenewable energy solutions are often hindered by the inconsistencies of power produced by wind, water and sunlight and the continuously fluctuating demand for energy.
University Research | Energy Storage/Distribution | Research to Secure Our Energy Future | Stanford UniversityAn interdisciplinary team has developed a way to track how particles charge and discharge at the nanoscale, an advance that will lead to better batteries for all sorts of mobile applications.
Research to Secure Our Energy Future | Energy Storage/Distribution | Stanford University