Using artificial intelligence, a Stanford-led research team has slashed battery testing times – a key barrier to longer-lasting, faster-charging batteries for electric vehicles – by nearly fifteenfold.
New research maps the impacts of past and future hydropower development on fish habitats – and points to where restoration efforts may do the most good.
Stanford researchers have sequenced microbial communities in samples of reservoir fluids to identify where water traveled through underground networks and pathways.
In a roundup that spans energy, geology, geophysics and Earth systems, here are some of the most interesting, high-impact and popular research stories from 2019.
Coal use is down dramatically in the United States and the European Union, and renewable energy is gaining traction. But rising natural gas and oil use in 2019 increased the world’s carbon dioxide emissions modestly for a third straight year.
Stanford scientists have developed a precise way to measure U.S. power plant emissions 24/7. The new tool will enable grid operators and big electricity consumers to reduce their carbon footprint in real time.
Researchers may have found a chemical reaction that makes this possible.
Many Americans are ambivalent about natural gas, which produces less carbon dioxide than oil or coal but results in emission of methane, a far more potent greenhouse gas in the short term. Stanford experts weigh in on the subtleties of the issue.
A new process shows promise in turning the greenhouse gas carbon dioxide back into usable fuels, and yields four times as much fuel as previous approaches.
Scientists have estimated the emissions intensity of carbon dioxide and other air pollutants from a major electricity distributor and highlighted key consequences – essential information for policymakers shaping decisions to reduce electricity system emissions.
Replacing today’s expensive catalysts could bring down the cost of producing the gas for fuel, fertilizer and clean energy storage.
Researchers have determined how hydrogen molecules are packed at extremely high pressures. Their work solves the long-standing mystery of the structure of the dense form of hydrogen, called phase IV.
The Hubbard model, used to understand electron behavior in numerous quantum materials, now shows us its stripes, and superconductivity too, in simulations for cuprate superconductors.
Damages from air pollution have fallen dramatically in the U.S. in recent years, shows new research. But how different sectors of the economy have contributed to that decline is highly uneven.
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.
SUNCAT researchers discovered a way to improve a key step in these conversions, and explore what it would take to turn the climate-changing gas into valuable products on an industrial scale.
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 way to arrange the hard-working atoms in this part of an exhaust system could lower the cost of curbing pollution from automotive engines.