Abstract
Main observation and conclusionTo search for novel Cu(I) complexes, traditional approaches focus on designing and screening ligands, metal precursors and reaction parameters. In this report, we propose a top‐down approach, in which Cu precursor is first reduced to nanoparticles in the presence of alkynyl and phosphine ligands. The nanoparticles then undergo an auto‐oxidation step in open air to give CuO powder. During this process, a new tetranuclear Cu(I) cluster with an unprecedented centered triangular configuration, [Cu4(PhC≡C)3(dppp)3]NO3, is isolated in the supernatant. To demonstrate the feasibility of such strategy, it is applied to synthesize another two new Cu(I) clusters, [Cu6 (PhC≡C)5(dppe)3]NO3 and Cu4(PhC≡C)4(dpph)2. The latter has shown a photoluminescence at 511 nm with a quantum yield of as high as 69.84%.
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