Though discovering new elements beyond the 118 confirmed will be difficult, there are abundant opportunities for isotope discovery. The first new isotope confirmed in 2019 is oxygen-11, the lightest-ever form of oxygen to date.
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While researching the structure of sulfur-selenium glasses, University of California, Davis researchers discovered something exciting—these glasses are flexible in bulk form!
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Japanese researchers found they could explain macroscopic friction in muscovite using theoretical calculations of microscale frictional forces. They hope to develop a theory that can explain frictional strength across a broad range of clay and clay-like minerals.
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Field-assisted sintering techniques (FAST) offer a way to lower firing temperatures and cycle times of sintering processes. The feature article in the January 2019 issue of Journal of the American Ceramic Society summarizes discussions from a workshop aimed at understanding the mechanisms behind FAST.
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Borophene, a 2D sheet of boron atoms, is extremely flexible, strong, and lightweight—even more so than graphene, its carbon-based cousin. Researchers at Brookhaven National Laboratory and Yale University have succeeded in growing large-area sheets of borophene for the first time.
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In a recent review article, ACerS director Jingyang Wang and colleagues take a look at progress on optimal processing and properties of highly porous rare-earth silicate thermal insulators.
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Researchers from Lehigh University and Corning Inc. showed the temperature of electrically heated glass defies predictions of traditional Joule’s first law by a long shot—over a thousand degrees! However, the law still appears to work when microscale heterogeneities are given due consideration.
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How do layered solids deform? According to new research at Drexel University, “ripplocations” account for most deformations in layered solids, from the atomic scale to the macroscale.
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Researchers often use similar defect models for barium titanate and strontium titanate even though the materials experience different dominant metal vacancies. New research suggests this practice is suitable in some cases, but researchers should tread more carefully in others.
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Water is known to produce many negative effects in batteries. But researchers at Toyohashi University of Technology found adding water to calcium-ion battery electrolytes actually increased the batteries’ speed.
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