MIT startup LiquiGlide, which has developed a coating that makes the inside of a bottle slippery, has signed an agreement with the glue-maker Elmer’s, Jim Festante reports for Slate in a new video. The video highlights how the LiquiGlide coating makes it possible for liquids like ketchup, toothpaste and glue to slide right out of the bottle, reducing waste.
LiquiGlide, an MIT startup that produces a slippery coating to help get substances out of bottles, has announced a partnership with glue maker Elmer’s Products, reports Nidhi Subbaraman for BetaBoston. Subbaraman explains that “LiquiGlide’s core technology is a sprayable solid-liquid double-layer,” that prevents liquids from adhering to the walls of containers.
Kenneth Chang writes for The New York Times about LiquiGlide, an MIT startup that has developed a nonstick coating that allows liquids, like ketchup or glue, to slide right out of the bottle. Chang explains that LiquiGlide could have “major environmental payoffs by reducing waste.”
Adam Rutherford of BBC Radio 4 speaks with Prof. Nicholas Makris about his work examining the evolution of violin design during the 17th and 18th centuries. Makris explains that, “if you go over that roughly 200 years you see that the F-hole length was increasing over that time period,” an adjustment that increased the violin’s acoustic power.
Researchers from MIT and Harvard have identified the optical features within a limpet’s shell that allow the mollusk to display blue stripes, reports Nidhi Subbaraman for BetaBoston. The findings could inspire developments in augmented reality screens.
MIT researchers have developed a test for Ebola and other fevers using gold nanoparticle sensors that quickly identify the pathegon, writes Andrea Timpano for Boston Magazine. “It is important to recognize that the United States needs to have strategies for surveillance that will identify dangerous viruses,” says Professor Lee Gehrke.
“A promising new diagnostic test from MIT looks like it could be a game changer for rapidly diagnosing several important infectious diseases within minutes,” writes Judy Stone for Forbes. The paper test developed by MIT researchers can diagnose Ebola, yellow fever and dengue fever.
MIT researchers have developed a garden filled with origami robots, LED flowers that can bloom on command and mechanical insects, reports Nidhi Subbaraman for BetaBoston. The garden was developed in an effort to make programming more accessible to children.
MIT researchers have developed a new silver nanoparticle-based paper test that can quickly detect dengue, yellow fever and Ebola, reports Vicki Davison for Scientific American. In addition to the paper test, the researchers are also working on developing a mobile application to ease diagnosis.
The Naked Scientists feature Prof. Nicholas Makris explaining his research on the evolution of violin design and performing on the lute. Makris explains his finding that the violin’s “F-hole length increased from the Amati time period to the Guarneri time period," making the instrument's sound more powerful.
A new study conducted by MIT researchers examines the unique acoustical properties of Cremona-era violins’ F-shaped holes, writes Douglas Quenqua for The New York Times. “The scientists found that the length of the holes, not the width, and the strength of the back plate had the biggest effects on sound quality,” Quenqua explains.
Matt Cantor of USA Today writes that by examining the key features that augment a violin’s sound, MIT researchers have found that the shape and design of the “f-holes” give the instrument its acousitcal power. The researchers also found that the instrument’s shape evolved gradually over time, by chance.
The Economist writes about a new MIT study examining the development of violin design, which was found to have evolved by chance. The researchers also found that the shape and length of the violin’s “f-holes” give the instrument its acoustical power.
A new study conducted by researchers from MIT found that a violin’s acoustic power comes from the design of the instrument, writes Joseph Dussault of The Christian Science Monitor. The researchers also found that the “violin’s distinctive, f-shaped sound hole came not as a result of human ingenuity, but rather a series of random mutations.”
Devin Coldewey of NBC News writes about new MIT research into the evolution of violin design. The researchers found that “the characteristics of the instruments underwent changes surprisingly like evolution by natural selection,” Coldewey explains.