Thomas W. Ni scite author profile

Ligand exchange reactions are widely used for imparting new functionality on or integrating nanoparticles into devices. Thiolate - for - thiolate ligand exchange in monolayer protected gold nanoclusters has been used for over a decade; however, a firm structural basis of this reaction has been lacking. Herein, we present the first single-crystal X-ray structure of a partially exchanged Au102(p-MBA)40(p-BBT)4 (p-MBA = para-mercaptobenzoic acid, p-BBT = para-bromobenzene thiol) with p-BBT as the incoming ligand. The crystal structure shows that 2 of the 22 symmetry-unique p-MBA ligand sites are partially exchanged to p-BBT under the initial fast kinetics in a 5 minute time scale exchange reaction. Each of these ligand-binding sites is bonded to a different solvent exposed Au atom, suggesting an associative mechanism for the initial ligand exchange. Density functional theory calculations modeling both thiol and thiolate incoming ligands postulate a mechanistic pathway for thiol based ligand exchange. The discrete modification of a small set of ligand binding sites suggests Au102(p-MBA)44 as a powerful platform for surface chemical engineering.

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Jahn–Teller effects in Au₂₅(SR)₁₈

Tofanelli

et al. 2016

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Crystal Structure of the PdAu₂₄(SR)₁₈⁰ Superatom

et al. 2016

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The single-crystal x-ray structure of Pd doped Au25(SR)18 was solved. The crystal structure reveals that in PdAu24(SR)18, the Pd atom is localized only to the centroid of the Au25(SR)18 cluster. This single crystal x-ray structure shows that PdAu24(SR)180 is well conceptualized with superatom theory. The PdAu24(SR)180 charge state is structurally isoelectronic with Au25(SR)18+1 as determined by a first order Jahn-Teller effect of similar magnitude and by electrochemical comparison. The previously reported increased stability of PdAu24(SR)18 can be rationalized in terms of Pd-Au bonds that are shorter than the Au-Au bonds in Au25(SR)18.

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Structural Basis for Ligand Exchange on Au₂₅(SR)₁₈

et al. 2014

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The single-crystal X-ray structure of Au25(SC2H4Ph)16(pBBT)2 is presented. The crystallized compound resulted from ligand exchange of Au25(SC2H4Ph)18 with pBBT as the incoming ligand, and for the first time, ligand exchange is structurally resolved on the widely studied Au25(SR)18 compound. A single ligand in the asymmetric unit is observed to exchange, corresponding to two ligands in the molecule because of the crystallographic symmetry. The ligand-exchanged Au25 is bonded to the most solvent-exposed Au atom in the structure, making the exchange event consistent with an associative mechanism. The apparent nonexchange of other ligands is rationalized through possible selective crystallization of the observed product and differential bond lengths.

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Thomas W. Ni

Structural and Theoretical Basis for Ligand Exchange on Thiolate Monolayer Protected Gold Nanoclusters

Jahn–Teller effects in Au₂₅(SR)₁₈

Crystal Structure of the PdAu₂₄(SR)₁₈⁰ Superatom

Structural Basis for Ligand Exchange on Au₂₅(SR)₁₈

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Thomas W. Ni

Structural and Theoretical Basis for Ligand Exchange on Thiolate Monolayer Protected Gold Nanoclusters

Jahn–Teller effects in Au25(SR)18

Crystal Structure of the PdAu24(SR)180 Superatom

Structural Basis for Ligand Exchange on Au25(SR)18

Contact Info

Product

Resources

About

Jahn–Teller effects in Au₂₅(SR)₁₈

Crystal Structure of the PdAu₂₄(SR)₁₈⁰ Superatom

Structural Basis for Ligand Exchange on Au₂₅(SR)₁₈