Abstract
AbstractCatalytic reduction of 4‐nitrophenol (4‐NP) to 4‐aminophenol (4‐AP) over high‐performance and stable metal nanoparticle catalyst is highly desirable. This study experimentally demonstrated that graphdiyne (GDY), an all‐carbon two‐dimensional material composed of two hybrid carbon atoms (sp and sp2), can uniformly disperse copper nanoparticles through simple microwave reduction and has excellent 4‐NP reduction ability. Cu/GDY shows an extraordinary reaction rate constant of 0.9984 min−1, Moreover, the catalytic activity is maintained almost intact within five cycles. These encouraging results demonstrated that the unique pores and electronic structure of GDY enhance the stability of anchored metal nanoparticles and have great potential to degrade 4‐NP as a promising support for copper nanoparticles.
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