An Atomically Precise Au₁₀Ag₂ Nanocluster with Red–Near‐IR Dual Emission

Abstract: A red-near-IR dual-emissive nanocluster with the composition [Au10 Ag2 (2-py-C≡C)3 (dppy)6 ](BF4 )5 (1; 2-py-C≡C is 2-pyridylethynyl, dppy=2-pyridyldiphenylphosphine) has been synthesized. Single-crystal X-ray structural analysis reveals that 1 has a trigonal bipyramidal Au10 Ag2 core that contains a planar Au4 (2-py-C≡C)3 unit sandwiched by two Au3 Ag(dppy)3 motifs. Cluster 1 shows intense red-NIR dual emission in solution. The visible emission originates from metal-to-ligand charge transfer (MLCT) from silve… Show more

“…Recently,a lkynyl ligands were employed in the synthesis of gold nanoclusters. [50][51][52][53][54][55][56][57][58][59][60] Staple motifs PhC C À (Au À C CPh) n (n = 1o r2 )s imilar to but different from RS À (Au À SR) n were also observed. [61][62][63] It is notable that alkynyl analogues of thiolate-stabilized gold nanoclusters can be synthesized, [64] and crucial ligand effects in catalysis have also been reported.…”

Isolation and Total Structure Determination of an All‐Alkynyl‐Protected Gold Nanocluster Au₁₄₄

“…Recently,a lkynyl ligands were employed in the synthesis of gold nanoclusters. [50][51][52][53][54][55][56][57][58][59][60] Staple motifs PhC C À (Au À C CPh) n (n = 1o r2 )s imilar to but different from RS À (Au À SR) n were also observed. [61][62][63] It is notable that alkynyl analogues of thiolate-stabilized gold nanoclusters can be synthesized, [64] and crucial ligand effects in catalysis have also been reported.…”

Isolation and Total Structure Determination of an All‐Alkynyl‐Protected Gold Nanocluster Au₁₄₄

“…7 To realize these applications, it is important to profoundly understand the underlying photophysics of the clusters, including their photoabsorption and photoluminescence (PL) properties. As is well known, dual PL and multiple PL decay are frequently observed in ligand-protected gold, silver, and their alloy clusters at room temperature; [8][9][10][11][12] however, their origin remains unclear. The exact origin of the PL is difficult to identify because of the presence of multiple emission sites in the clusters, such as the metal core and surface staple, [7][8][9][10][11][12] as well as the contribution of electronic states with different spin multiplicities (i.e., excited singlet and triplet states) to these emission sites.…”

Unravelling the origin of dual photoluminescence in Au₂Cu₆ clusters by triplet sensitization and photon upconversion

“…The formation of coinage metal clusters are facilitated by intense metallophilic interactions between d 10 metals, such as gold(I) and silver(I). Negative charged alkynyl is one of the most extensively studied ligands in these systems, as they may form both σ‐ and π‐binding to metal ions . In some cases, phosphine ligands are also introduced to act as peripheral protecting ligands and to enhance the stability of the structures.…”

Vapochromic Gold(I)–Silver(I) Cluster Protected by Alkynyl and Phosphine Ligands