A promising lead halide perovskite is great at converting sunlight to electricity, but it breaks down at room temperature. Now scientists have discovered how to stabilize it with pressure from a diamond anvil cell.
Finding and extracting deposits of cobalt, lithium, nickel and other materials used in batteries is expensive and environmentally fraught. Geoscientists are now using artificial intelligence to quickly identify new resources, get the most out of those we already know about and improve refining processes.
Carbon dioxide emissions from oil, gas and coal this year are predicted to reach approximately 34 billion tons, a 7 percent drop from fossil emission levels in 2019. Emissions from transport account for the largest share of the global decrease.
High-speed manufacturing could advance the commercialization of perovskite modules, a green alternative to conventional solar panels made of silicon.
Programmers write code, find what is not working, and then debug their program. It’s the same with climate change, Microsoft’s chief environment officer said in a conversation hosted as part of Stanford's Global Energy Dialogues.
A new study outlines how capturing and permanently storing carbon dioxide from power plants, oil refineries and other facilities could help California meet its climate goals.
Adding polymers and fireproofing to a battery’s current collectors makes it lighter, safer and about 20 percent more efficient.
A new model offers a way to predict the condition of a battery’s internal systems in real-time with far more accuracy than existing tools. In electric cars, the technology could improve driving range estimates and prolong battery life.
Researchers analyzed the interconnected food, water and energy challenges that arise from the sugar industry in India – the second-largest producer of sugar worldwide – and how the political economy drives those challenges.
Researchers hypothesize outcomes of the pandemic’s unprecedented socioeconomic disruption, and outline research priorities for advancing our understanding of humans’ impact on the environment.
A new study reveals particles that were released from nuclear plants damaged in the devastating 2011 Tohoku earthquake and tsunami contained small amounts of radioactive plutonium.
The pandemic has tugged carbon emissions down, temporarily. But levels of the powerful heat-trapping gas methane continue to climb, dragging the world further away from a path that skirts the worst effects of global warming.
Researchers examined the most beneficial vehicle fuel technology for transportation in the US and the trade-off between decarbonization and air pollution mitigation. The results show electric vehicle use must accompany clean energy grids to mitigate both climate change and air pollution.
A computer science PhD student describes how we might combine the flexibility of drones with the capacity of ground-based vehicles to make e-commerce more traffic-friendly.
Faculty at Stanford's School of Earth, Energy & Environmental Sciences recommend these 24 books for your summer reading.
Engineers have devised a model to describe how, in the process of establishing wind farms, interactions between developers and landowners affect energy production costs.
New research shows living near oil and gas development in California is a risk factor for preterm birth, the leading cause of infant death in the United States. About 2.1 million Californians live within one mile of an active oil or gas well.
Earthquakes caused by hydraulic fracturing can damage property and endanger lives. Stanford researchers have developed new guidelines for when to slow or halt fracking operations based on local risks.
Emissions of methane, a potent greenhouse gas, from water heaters are higher than previously estimated, especially for a new type of heater growing in popularity, a new study finds. But simple fixes exist.