Atomically Precise Cu_n(n=3, 6 and 11) Nanocatalysts for Alkyne‐Haloalkane‐Amine (AHA) Coupling Reaction

Abstract: Ultrafine nanoclusters with precise structure as catalysts are of particular interest due to high sites density, high metal atomic efficiency and potentially favorable metal-support interactions. In this work, we used a simple wet impregnation method to fix three Cu n (n = 3, 6, 11) nanoclusters (NCs) on activated carbon (AC). The structural characteristics of the three obtained Cu n (n = 3, 6, 11)/AC catalysts were analyzed by FT-IR, XRD, TEM and XPS. Cu n (n = 3, 6, 11)/AC catalysts are used for exploring ca… Show more

“…95 Improved catalytic performance was also observed in Cu n ( n = 3, 6, 11)/AC catalysed alkyne–haloalkane–amine coupling reaction (TON up to 715.4), comparing with Cu salt and other non-noble metal catalysts. 96 High stability of Cu 6 /AC catalyst was suggested from the unchanged catalytic activity 5-cycle experiments, and the maintained structural properties in the recovered catalyst.…”

Structure control and evolution of atomically precise gold clusters as heterogeneous precatalysts

“…95 Improved catalytic performance was also observed in Cu n ( n = 3, 6, 11)/AC catalysed alkyne–haloalkane–amine coupling reaction (TON up to 715.4), comparing with Cu salt and other non-noble metal catalysts. 96 High stability of Cu 6 /AC catalyst was suggested from the unchanged catalytic activity 5-cycle experiments, and the maintained structural properties in the recovered catalyst.…”

Structure control and evolution of atomically precise gold clusters as heterogeneous precatalysts

Catalysts For Propargylamines Synthesis Via A3, AHA, and KA2 Coupling - A Review