How does glass respond to strain? Researchers developed a phase diagram to understand the relationship between strain in glass and deformation behavior.
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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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Researchers found simple thermal annealing can effectively dope titanium dioxide with nitrogen. Findings like this one can help expand the use of TiO2 in solar energy conversion technologies.
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A recent study shows that MXenes, a member of the increasingly-researched 2D material family, expand when compressed in the presence of water. This finding holds implications for how MXenes are processed.
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Gurpreet Singh and his four co-principal investigators are leading a five-year NSF study focused on ceramics for high-temperature applications, particularly jet aircraft turbines, and international collaboration opportunities for the students involved.
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Researchers measured Planck’s constant to more accurately define the kilogram. As of November 16, all seven base SI units rely on fundamental constants.
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There is more to football than running, throwing, kicking, and tackling. Watch today’s video to learn how science helps a quarterback ensures his pass reaches the receiver.
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Nearly two hundred people from 25 countries converged in Vancouver, BC, Canada, August 20–23, for Materials Challenges in Alternative and Renewable Energy (MCARE 2018). The conference inspired a variety of discussions and a lot of enthusiasm.
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Lemons are good for making low-voltage batteries, but not so much when powering a car. Mark Rober attempts to create a giant lemon battery before realizing he should have used another energy source.
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Researchers at the University of Michigan have developed a faster-charging solid-state lithium battery. The key is a ceramic electrolyte that stabilizes the surface and does not degrade over time.
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