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A panel of energy experts including former Energy Secretary Ernest Moniz discuss investments and innovations that could help California get on track to meet its 2030 and 2050 climate goals.
Thinking about investing in rooftop solar? Probably a good idea environmentally almost anywhere, Stanford researchers find. Eyeing a home battery, too? Think again.
The sweeping plan to overhaul transportation, energy and other sectors failed a recent U.S. Senate vote, but remains a political lightning rod. Stanford experts discuss the science behind the politics.
Scientists have found how to accurately predict the useful lifespan of lithium-ion batteries before their capacities start to wane. The advance could accelerate battery development and reduce manufacturing costs.
In a speech at Stanford, Costa Rican President Carlos Alvarado Quesada described a vision for the Central American country to phase out all carbon emissions by the year 2050.
Storing energy produced by wind or solar for later use has a challenge competing with existing natural gas-fired generation units. But batteries designed for the job could ease the way.
Green power source or fish killer? As older dams around the West come up for relicensing, their owners know that they’ll have to spend heavily to fix problems, while new energy sources are getting cheaper.
Why does stuffing more lithium into battery cathodes lead to their failure? New research illuminating this phenomenon could pave the way to electric cars that can drive longer distances between charges.
SunRun CEO Lynn Jurich argued at Stanford Energy Week that cooperation between utilities and solar providers will be key to building a cleaner, more nimble and cost-effective energy system.
The search for the perfect material can be like trying to find a needle in a haystack. Researchers are leveraging machine learning to change this, potentially aiding the search for better materials for fuel cells, thermoelectric devices and electric car batteries.
Recent droughts caused increases in emissions from power generation in several western states as fossil fuels came online to replace hampered hydroelectric power. A new study quantifies the impact.
Nuclear security expert Rod Ewing discusses new recommendations for solving the U.S. nuclear waste problem, why conventional risk assessments don’t go far enough and what makes this challenge more difficult than putting a man on the moon.
Renewable energy capacity has hit record levels and global coal use may have already peaked. But the world's carbon dioxide emissions from fossil fuels increased in 2018, and the trend places global warming targets in jeopardy.
The recent midterm elections could have far-reaching implications for the direction of federal- and state-level environment and energy policy. Stanford experts discuss ways forward, lessons learned and more.
Stanford geophysicists forecast a decline in potentially damaging earthquakes from wastewater injection in Oklahoma and Kansas through 2020.
A new analysis looks at what it would take for oil companies to start pumping millions of tons of carbon dioxide into their wells to boost crude production – and what it would mean for the climate.
Experiments at SLAC and Berkeley Lab uproot long-held assumptions about how lithium ions move through a common battery material and will inform future battery design.
Some oil fields are cleaner than others. But together, they show natural gas management drives more emissions than scientists thought. A new study highlights a path to shrink crude oil's climate impact.
The boom and bust in clean energy investments starting in 2008 produced some lessons to guide future government policy and investment strategies for the next cycle of investment in a sustainable energy future.