In November 2021, the National Science and Technology Council subcommittee marked the 10th anniversary of the Materials Genome Initiative by issuing a new, comprehensive five-year strategic plan for the MGI. Learn more about the new plan in today’s CTT.
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Functionalizing hexagonal boron nitride is difficult due to bonding within the material’s structure. A group led by researchers at The Pennsylvania State University demonstrated the potential of cryomilling to functionalize hexagonal boron nitride through defect engineering.
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There are many applications for calcium phosphate in the medical field. Recently, the cosmetics industry has taken an interest in this mineral family as well, and a new open-access paper reviews what the industry has used calcium phosphate for so far.
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To meet the industry’s growing demand for customized manufacturing, researchers are increasingly interested in processing transparent ceramics using additive manufacturing. Guangran Zhang and Yiquan Wu of Alfred University demonstrated how highly transparent yttrium aluminum garnet ceramics could be fabricated via a lithography-based digital projection method.
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The December 2021 issue of the ACerS Bulletin—featuring an overview of ceramic and glass materials in sports—is now available online. Plus—new C&GM and ceramicSOURCE 2022.
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Barriers to commercialization are not stopping scientists from developing new and improved methods for rapid testing of COVID-19. In today’s CTT, we look at three recent studies furthering research in this area.
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Current neural networks are incapable of understanding symmetry, which limits the conclusions that can be drawn from the data. Researchers from Lehigh and Stanford universities developed a new model that includes symmetry-aware features to improve symmetry approximation.
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A white cane is one of the most common mobility aids for people with visual impairments, but a limitation of these devices is they cannot detect obstacles beyond the length of the cane. Stanford University researchers developed a smart cane that is lightweight, affordable, and can be built at home.
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Traditionally, metalenses use nanoscale arrays of columns or fin-like structures to focus light. In a new open-access paper, researchers at the Harvard John A. Paulson School of Engineering and Applied Sciences developed a metalens that uses very deep, very narrow holes instead.
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Recent articles on carbon nanotube-containing ceramic composites showed improved properties compared to the original ceramic composite. Two recent articles in ACerS journals demonstrate these improvements.
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