Transparent ceramics offer advantages over conventional glass and single-crystal technologies—could transparent nanoceramics be even more advantageous? Researchers show how pressureless glass crystallization could offer an easier way to synthesize transparent nanoceramics.
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Researchers from Notre Dame, Missouri S&T, and the U.S. Air Force Research Laboratory developed a fused filament fabrication method that uses optical fibers as a feedstock. Their method could help create devices ideal for optical applications.
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A research collaboration achieved ferroelectric domain reversal in single-crystal-architecture-in-glass (SCAG) optical fibers, in spite of the crystals being constrained inside glass. Their research could revolutionize optical data transmission technology.
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A team of Lawrence Berkeley National Laboratory researchers showed “dark fibers,” unused fiber-optic cables that crisscross the United States underground, could be co-opted to serve as sensors in earthquake monitoring systems.
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Jülich scientists created yttria-coated transparent zirconia ceramics that demonstrated fracture toughness values far higher than tempered glass. Their method is suitable for industrial mass production.
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Metalenses, a type of metasurface used for focusing light, could replace glass in cameras and imaging systems. Two recent studies advance this possibility.
Read MoreACerS Fellow John Mauro has traveled an interesting career path. He attributes his success to his education, mentors, and his involvement with ACerS and the Glass and Optical Materials Division. His Lifetime Membership reflects the value he places on the Society.
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Researchers have demonstrated a new toughening mechanism for nanoceramics by studying weak interfaces in nanocrystalline ceramics. Their method could improve impact resistance without compromising functional properties.
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Researchers have developed a glass composite that could be used in fabricating intricate objects. “Glassomer,” a material made of a polymer and quartz, could be useful in a wide variety of industrial applications.
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A company called MetaShield has developed a simple, spray-on, nanoparticle-based coating—and now independent laboratory testing verifies that the coating significantly enhances the impact resistance of glass.
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