Key Highlights
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Researchers have developed a new catalyst that combines copper, nickel, and tungsten trioxide on a specially prepared titanium dioxide surface to steer the chemical reaction that converts nitrate into other useful chemicals using electricity. This precise control is a major step towards cleaning up water pollution and creating valuable products from waste.
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A new magnesium-lithium alloy achieves a rare combination of being both strong and bendable by using a mix of different microscopic structures and tiny, shearable particles within the metal. This breakthrough could lead to lighter, more durable materials for everything from cars to electronics.
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Scientists have compared two high-tech laser methods—an “optical centrifuge” and a standard laser pulse—for making molecules spin extremely fast when their spinning and vibrating motions are tightly linked. Understanding this control is key for advanced applications like guiding chemical reactions with light and studying molecules at the quantum level.
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A chemistry professor shares her strategy for presenting complex research, which involves weaving together multiple projects into one compelling narrative. This approach is crucial for scientists to communicate their work effectively, securing funding and inspiring their teams and the public.
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