Franky Ka‐Wah Hau scite author profile

Unprecedented addition reaction-induced gold(I) cluster-to-cluster transformation has been observed in the present work. Reaction of the chlorogold(I) precursor, [vdpp(AuCl)2] (vdpp = vinylidenebis(diphenylphosphine)) containing the diphosphine with unsaturated C═C bond, with H2S resulted in a series of polynuclear gold(I) μ3-sulfido clusters bearing Au(I)···Au(I) interactions; the identities of which have been fully characterized by NMR, electrospray-ionization mass spectrometry, elemental analysis, and single crystal X-ray diffraction analysis. Diverse research methods, including UV-vis absorption, (1)H NMR, and (31)P NMR spectroscopy, were employed to detect and monitor the transformation and assembly processes. Supported by single crystal structures, the existence of Au(I)···Au(I) bonding interactions sustains the diverse array of sophisticated polynuclear cluster structures and endues them with rich luminescence features.

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From {Au^I···Au^I}-Coupled Cages to the Cage-Built 2-D {Au^I···Au^I} Arrays: Au^I···Au^I Bonding Interaction Driven Self-Assembly and Their Ag^I Sensing and Photo-Switchable Behavior

Jiang

et al. 2014

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Metal-metal bonding interactions have been used to generate a number of unique supramolecular assemblies with fascinating functions. We presented here a new class of gold(I)-containing metallosupramolecular cages and cage-built two-dimensional (2-D) arrays of {Au8L2}n (n = 1 or ∞, L = tetrakis-dithiocarbamato-calix[4]arene, TDCC), 1-3, which are constructed from the self-assembly of deep-cavitand calix[4]arene-based supramolecular cages consisting of octanuclear Au(I) motifs. Synchrotron radiation X-ray diffraction structural analyses of 1-3 revealed their quadruple-stranded helicate dimeric cage structure and the presence of 2-D arrays of cages linked together by inter- and intramolecular Au(I)···Au(I) interactions. Electronic absorption and emission studies of complexes 1-3 indicated the occurrence of a programmable self-assembly process in a concentration-dependent stepwise manner with the links built via aurophilic interactions. These novel gold(I) supramolecular cages exhibited green phosphorescence and have been shown to serve as highly selective proof-of-concept luminescent sensors toward Ag(I) cation among various competitive transition-metal ions.

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Franky Ka‐Wah Hau

Addition Reaction-Induced Cluster-to-Cluster Transformation: Controlled Self-Assembly of Luminescent Polynuclear Gold(I) μ₃-Sulfido Clusters

From {Au^I···Au^I}-Coupled Cages to the Cage-Built 2-D {Au^I···Au^I} Arrays: Au^I···Au^I Bonding Interaction Driven Self-Assembly and Their Ag^I Sensing and Photo-Switchable Behavior

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Franky Ka‐Wah Hau

Addition Reaction-Induced Cluster-to-Cluster Transformation: Controlled Self-Assembly of Luminescent Polynuclear Gold(I) μ3-Sulfido Clusters

From {AuI···AuI}-Coupled Cages to the Cage-Built 2-D {AuI···AuI} Arrays: AuI···AuI Bonding Interaction Driven Self-Assembly and Their AgI Sensing and Photo-Switchable Behavior

Contact Info

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Addition Reaction-Induced Cluster-to-Cluster Transformation: Controlled Self-Assembly of Luminescent Polynuclear Gold(I) μ₃-Sulfido Clusters

From {Au^I···Au^I}-Coupled Cages to the Cage-Built 2-D {Au^I···Au^I} Arrays: Au^I···Au^I Bonding Interaction Driven Self-Assembly and Their Ag^I Sensing and Photo-Switchable Behavior