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A new approach to the design of a liquid battery, using a passive, gravity-fed arrangement similar to an old-fashioned hourglass, could offer great advantages due to the system’s low cost and the...
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A team of MIT researchers has for the first time demonstrated a device based on a method that enables solar cells to break through a theoretically predicted ceiling on how much sunlight they can...
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Performance across a wide range of new technologies from solar cells to fuel cells depends on interactions at interfaces between materials on the atomic scale. “The behavior is influenced, and often...
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Most of the world’s nations have agreed to make substantial reductions in their greenhouse gas emissions, but achieving these goals is still a considerable technological, economic, and political...
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Mobilizing oxygen atoms from the crystal surface of perovskite-oxide electrodes to participate in the formation of oxygen gas is key to speeding up water-splitting reactions, researchers at MIT, the...
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Road vehicles are a key part of the climate change challenge, representing both an important source of petroleum demand and greenhouse gas (GHG) emissions worldwide. Changes to our transportation...
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Traditional light bulbs, thought to be well on their way to oblivion, may receive a reprieve thanks to a technological breakthrough.
Incandescent lighting and its warm, familiar glow is well over a...
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According to Forbes magazine, their fifth annual 30 Under 30 lists showcase “America’s most important young entrepreneurs, creative leaders and brightest stars” who are less than than 30 years old....
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Professor John Heywood is one of the most recognizable and highly regarded names in internal combustion engines. His work with Professor James Fay and Professor James Keck in the MIT Sloan Automotive...
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A joyride. A cruise. A flight to your next vacation or a drive to see your family. Or just simply getting from point A to point B. Whatever the reason, there are few people who don’t appreciate a...
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An MIT assessment of solar energy technologies concludes that today’s widely used crystalline silicon technology is efficient and reliable and could feasibly be deployed at the large scale needed to...
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Boiling water, with its commotion of bubbles that rise from a surface as water comes to a boil, is central to most electric power plants, heating and cooling systems, and desalination plants. Now,...
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Nature has had billions of years to perfect photosynthesis, which directly or indirectly supports virtually all life on Earth. In that time, the process has achieved almost 100 percent efficiency in...
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India has set some of the most aggressive near-term energy goals of any nation in the world. The man tasked with bringing those goals to fruition, Piyush Goyal, met with researchers from the MIT...
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Leon Glicksman designs buildings with an eye toward improved energy efficiency, and, like many of his MIT colleagues, he brings with him a high-tech portfolio. He develops aerogel panels to improve...
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The boiling of water is at the heart of many industrial processes, from the operation of electric power plants to chemical processing and desalination. But the details of what happens on a hot...
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Materials known as conjugated polymers have been seen as very promising candidates for electronics applications, including capacitors, photodiodes, sensors, organic light-emitting diodes, and...
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When graduate student Natasha Wright began her PhD program in mechanical engineering, she had no idea how to remove salt from groundwater to make it more palatable, nor had she ever been to India,...
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Conduction and thermal radiation are two ways in which heat is transferred from one object to another: Conduction is the process by which heat flows between objects in physical contact, such as a pot...
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Researchers at MIT and Stanford University have developed a new kind of solar cell that combines two different layers of sunlight-absorbing material in order to harvest a broader range of the sun’s...