As the world shifts from fossil fuels, additional sources of energy-on-demand will be needed to make up for lulls in wind or solar. A new way of extracting uranium from seawater could help even countries without uranium mines harness nuclear power in the post-carbon energy future.
An analysis by experts in Earth science and environmental law at Stanford and other institutions proposes creating underground easements to allow private landowners to restrict hydraulic fracturing and mining.
Through long shifts at the helm of a highly sophisticated microscope, researchers at Stanford recorded reactions at near-atomic-scale resolution. Their success is another step toward building a better battery.
The U.S. government sells coal mined on federal lands at bargain rates, losing valuable revenue and hurting efforts to reduce greenhouse gases. Stanford scientists recommend significant changes.
While exploring the atomic-level forces at play in a new type of computer chip, researchers found an energy-saving surprise that could translate into longer battery life for next-generation mobile devices.
Squeezing a platinum catalyst a fraction of a nanometer nearly doubles its catalytic activity, a finding that could lead to better fuel cells and other clean energy technologies.
A study of energy use in a community near Stanford finds that all-electric battery vehicles offer a more affordable way to reduce carbon dioxide emissions than cars powered by hydrogen.
New maps of the geologic forces contributing to earthquakes in Texas and Oklahoma could help reduce the likelihood of manmade temblors associated with wastewater injection.
Stanford faculty members Burton Richter, Dan Reicher and Frank Wolak, who are experts in energy policy, law and infrastructure, discuss the future of energy under a Donald Trump presidency.
Stanford scientists used the electricity generated by high-efficiency solar cells to turn water into a chemical capable of storing 30 percent of the sun’s energy over long periods of time.