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Nanometals have been proven to be efficient thermocatalysts in the last decades. Their enhanced catalytic activity and tunable functionalities make them intriguing candidates for a wide range of catalytic applications, such as gaseous reactions and compound synthesis/decomposition. On the other hand, the enhanced specific surface energy and reactivity of nanometals can lead to configuration transformation...
A green and cost‐effective method, named the “solid dual‐ions‐transformation reaction”, is reported to achieve the goal of successfully doping S and N into hollow carbon nanotubes. No harmful raw material is needed during the whole synthesis. Importantly, in the catalytic test of chemical reduction of p‐nitrophenol by NaBH4, the as‐obtained S,N co‐doped hollow carbon nanotubes exhibit ultrahigh catalytic...
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