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Rohit Karnik, an associate professor of mechanical engineering at MIT, addresses real-world challenges with his microfluidics and nanofluidics research. The studies that Karnik and his team have...
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A new material structure developed at MIT generates steam by soaking up the sun.
The structure — a layer of graphite flakes and an underlying carbon foam — is a porous, insulating material structure...
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Twisting a screwdriver, removing a bottle cap, and peeling a banana are just a few simple tasks that are tricky to pull off single-handedly. Now a new wrist-mounted robot can provide a helping hand...
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Leslie Bromberg, a research scientist at MIT’s Plasma Science and Fusion Center, and Alexander Sappok ’09 have been recognized by R&D Magazine for inventing one of the top 100 technologies of the...
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Last year, MIT researchers discovered that when water droplets spontaneously jump away from superhydrophobic surfaces during condensation, they can gain electric charge in the process. Now, the same...
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In the movie “Terminator 2,” the shape-shifting T-1000 robot morphs into a liquid state to squeeze through tight spaces or to repair itself when harmed.
Now a phase-changing material built from wax...
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Alberto Rodriguez, an assistant professor of mechanical engineering, and incoming graduate student Nikhil Chavan-Dafle presented their work on robotic extrinsic dexterity — which they began at...
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The fields of data communication, fabrication, and ultrasound imaging share a common challenge when it comes to improving speed and efficiency: light’s diffraction limit. Nicholas Fang thinks his...
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When Kelly Heber goes snorkeling in Bali, she’s not exactly vacationing: In a few minutes, she’ll be onboard a nearby boat, asking the captain if he’s seen any comeback in his fish stocks in recent...
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Whenever there is a major spill of oil into water, the two tend to mix into a suspension of tiny droplets, called an emulsion, that is extremely hard to separate — and that can cause severe damage to...
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Sami Khan, a dual-degree graduate student in mechanical engineering and technology and policy, recently received a research award from the Hydro Research Foundation. Khan — who conducts research in...
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There is a story about how the modern golf ball, with its dimpled surface, came to be: In the mid-1800s, it is said, new golf balls were smooth, but became dimpled over time as impacts left permanent...
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Researchers compare the processing of biological fluid samples with searching for a needle in a haystack — only in this case, the haystack could be diagnostic samples, and the needle might be tumor...
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Explosions caused by leaking gas pipes under city streets have frequently made headlines in recent years, including one that leveled an apartment building in New York this spring. But while the...
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What’s the difference between the Eiffel Tower and the Washington Monument?
Both structures soar to impressive heights, and each was the world’s tallest building when completed. But the Washington...
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Feathers have long been recognized as a classic example of efficient water-shedding — as in the well-known expression “like water off a duck’s back.” A combination of modeling and laboratory tests...
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The Society of Automotive Engineers (SAE) recently presented three researchers in the Department of Mechanical Engineering — C. Justin Kamp, Alex G. Sappok, and Victor W. Wong — with the 2014 Arch T...
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RoboClam Inspired by Efficient Razor Clam
Razor clam, left, versus RoboClam, right.
The Atlantic razor clam uses very little energy to burrow into undersea soil at high speed. Now a detailed...
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Undergraduate
Alfred A. H. Keil Ocean Engineering Development Award (For Excellence in Broad-Based Research in Ocean Engineering)
Beckett Colson, Lampros Tsontzos
AMP Inc. Award (Outstanding ...
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The Case of the Welcome “Hairball”
by Alissa Mallinson
PhD student Folkers Rojas (SB ‘09, SM ‘11, PhD ‘14)Photo credit: Tony Pulsone
What do a bathtub hairball and a MechE-developed blowout ...