A new way to convert carbon dioxide into the building block for sustainable liquid fuels was very efficient in tests and did not have the reaction that destroys the conventional device.
Finding natural gas leaks more quickly and at lower cost could reduce methane emissions. Ten promising technologies mounted on drones, trucks and airplanes were tested last year. The results are in.
A Stanford-led research team invented a new coating that could finally make lightweight lithium metal batteries safe and long lasting, which could usher in the next generation of electric vehicles.
A new battery made from affordable and durable materials generates energy from places where salt and fresh waters mingle. The technology could make coastal wastewater treatment plants energy-independent and carbon neutral.
On a working wind farm, Stanford researchers have shown that angling turbines slightly away from the wind can boost energy produced overall and even out the otherwise variable supply.
The EPA replaced the Obama-era Clean Power Plan with one that focuses on efficiency improvements at generating stations. Stanford experts on law, energy policy and economics discuss the move and its potential impacts.
From production to consumption, natural gas leaks claim lives, damage the climate and waste money. Research teams at Stanford are working on better ways to find and fix gas leaks quickly and inexpensively from one end of the system to the other.
A geothermal energy project triggered a damaging earthquake in 2017 in South Korea. A new analysis suggests flaws in some of the most common ways of trying to minimize the risk of such quakes when harnessing Earth’s heat for energy.
With a few changes to its existing energy operations, Stanford could further reduce its carbon footprint and costs in a model that other large campuses, towns and even cities can benefit from, a new study finds.
