A family of lead clusters with precious metal cores

Cong-Cong Shu; Harry W. T. Morgan; Lei Qiao; John E. McGrady; Zhong-Ming Sun

doi:10.1038/s41467-020-17187-4

A family of lead clusters with precious metal cores

Cong-Cong Shu, Harry W. T. Morgan, Lei Qiao, John E. McGrady, Zhong-Ming Sun

Computational and Theoretical Chemistry

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Abstract

Gold nanoparticles have been used for centuries, both for decoration and in medical applications. More recently, many of the major advances in cluster chemistry have involved well-defined clusters containing tens or hundreds of atoms, either with or without a ligand shell. In this paper we report the synthesis of two gold/lead clusters, [Au8Pb33]6− and [Au12Pb44]8−, both of which contain nido [Au@Pb11]3− icosahedra surrounding a core of Au atoms. Analogues of these large clusters are not found in the corresponding Ag chemistry: instead, the Ag-centered nido icosahedron, [Ag@Pb11]3−, is the only isolated product. The structural chemistry, along with the mass spectrometry which shows the existence of [Au2Pb11]2− but not [Ag2Pb11]2−, leads us to propose that the former species is the key intermediate in the growth of the larger clusters. Density functional theory indicates that secondary π-type interactions between the [Au@Pb11]3− ligands and the gold core play a significant part in stabilizing the larger clusters.

Original language	English
Article number	3477
Number of pages	9
Journal	Nature Communications
Volume	11
DOIs	https://doi.org/10.1038/s41467-020-17187-4
Publication status	Published - 10 Jul 2020

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title = "A family of lead clusters with precious metal cores",

abstract = "Gold nanoparticles have been used for centuries, both for decoration and in medical applications. More recently, many of the major advances in cluster chemistry have involved well-defined clusters containing tens or hundreds of atoms, either with or without a ligand shell. In this paper we report the synthesis of two gold/lead clusters, [Au8Pb33]6− and [Au12Pb44]8−, both of which contain nido [Au@Pb11]3− icosahedra surrounding a core of Au atoms. Analogues of these large clusters are not found in the corresponding Ag chemistry: instead, the Ag-centered nido icosahedron, [Ag@Pb11]3−, is the only isolated product. The structural chemistry, along with the mass spectrometry which shows the existence of [Au2Pb11]2− but not [Ag2Pb11]2−, leads us to propose that the former species is the key intermediate in the growth of the larger clusters. Density functional theory indicates that secondary π-type interactions between the [Au@Pb11]3− ligands and the gold core play a significant part in stabilizing the larger clusters.",

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T1 - A family of lead clusters with precious metal cores

AU - Shu, Cong-Cong

AU - Morgan, Harry W. T.

AU - Qiao, Lei

AU - McGrady, John E.

AU - Sun, Zhong-Ming

PY - 2020/7/10

Y1 - 2020/7/10

N2 - Gold nanoparticles have been used for centuries, both for decoration and in medical applications. More recently, many of the major advances in cluster chemistry have involved well-defined clusters containing tens or hundreds of atoms, either with or without a ligand shell. In this paper we report the synthesis of two gold/lead clusters, [Au8Pb33]6− and [Au12Pb44]8−, both of which contain nido [Au@Pb11]3− icosahedra surrounding a core of Au atoms. Analogues of these large clusters are not found in the corresponding Ag chemistry: instead, the Ag-centered nido icosahedron, [Ag@Pb11]3−, is the only isolated product. The structural chemistry, along with the mass spectrometry which shows the existence of [Au2Pb11]2− but not [Ag2Pb11]2−, leads us to propose that the former species is the key intermediate in the growth of the larger clusters. Density functional theory indicates that secondary π-type interactions between the [Au@Pb11]3− ligands and the gold core play a significant part in stabilizing the larger clusters.

AB - Gold nanoparticles have been used for centuries, both for decoration and in medical applications. More recently, many of the major advances in cluster chemistry have involved well-defined clusters containing tens or hundreds of atoms, either with or without a ligand shell. In this paper we report the synthesis of two gold/lead clusters, [Au8Pb33]6− and [Au12Pb44]8−, both of which contain nido [Au@Pb11]3− icosahedra surrounding a core of Au atoms. Analogues of these large clusters are not found in the corresponding Ag chemistry: instead, the Ag-centered nido icosahedron, [Ag@Pb11]3−, is the only isolated product. The structural chemistry, along with the mass spectrometry which shows the existence of [Au2Pb11]2− but not [Ag2Pb11]2−, leads us to propose that the former species is the key intermediate in the growth of the larger clusters. Density functional theory indicates that secondary π-type interactions between the [Au@Pb11]3− ligands and the gold core play a significant part in stabilizing the larger clusters.

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M3 - Article

SN - 2041-1723

VL - 11

JO - Nature Communications

JF - Nature Communications

M1 - 3477

ER -

A family of lead clusters with precious metal cores

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