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Homoatomic Polyhedra as Structural Modules in Chemistry: What Binds Fullerenes and Homonuclear Zintl Ions?同原子多面体作为化学中的结构模块:是什么将富勒烯和同核津特耳离子结合在一起?
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Neither electron-precise nor in accordance with Wade-Mingos rules: the ternary cluster anion [Ni2Sn7Bi5]3-.既非电子精确型,也不符合韦德-明戈斯规则:三元簇阴离子[Ni2Sn7Bi5]3-
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Synthesis and isolation of [Fe@Ge(10)](3-): a pentagonal prismatic Zintl ion cage encapsulating an interstitial iron atom.[Fe@Ge(10)](3-)的合成与分离:一种五棱柱 Zintl 离子笼,其中包裹着一个间隙铁原子。
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[Cu@Sn(9)](3-) and [Cu@Pb(9)](3-): intermetalloid clusters with endohedral Cu atoms in spherical environments.[Cu@Sn(9)](3-) 和 [Cu@Pb(9)](3-):球形环境中含内包铜原子的类金属簇合物。
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Pt@Pb₁₀⁻¹ 和 Pt@Pb₁₂¹⁻/²⁻ 阴离子的光电子能谱和计算研究。

Photoelectron spectroscopic and computational studies of the Pt@Pb₁₀⁻¹ and Pt@Pb₁₂¹⁻/²⁻ anions.

机构信息

Department of Chemistry, Johns Hopkins University, Baltimore, MD 21218, USA.

出版信息

Proc Natl Acad Sci U S A. 2011 Sep 6;108(36):14757-62. doi: 10.1073/pnas.1105052108. Epub 2011 Aug 26.

DOI:10.1073/pnas.1105052108
PMID:21876183
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3169158/
Abstract

A combination of anion photoelectron spectroscopy and density functional theory calculations has elucidated the geometric and electronic structure of gas-phase endohedral Pt/Pb cage cluster anions. The anions, Pt@Pb₁₀⁻¹ and Pt@Pb₁₂¹⁻ were prepared from "preassembled" clusters generated from crystalline samples of [K(2,2,2-crypt)]₂[Pt@Pb₁₂] that were brought into the gas phase using a unique infrared desorption/photoemission anion source. The use of crystalline [K(2,2,2-crypt)]₂[Pt@Pb₁₂] also provided access to KPt@Pb(n) anions in the gas phase (i.e., the K⁺ salts of the Pt@Pb(n)²⁻ anions). Anion photoelectron spectra of Pt@Pb₁₀⁻¹, Pt@Pb₁₂¹⁻, and K[Pt@Pb₁₂]¹⁻ are presented. Extensive density functional theory calculations on Pt@Pb₁₀³⁻/²⁻/¹⁻/⁰ and Pt@Pb₁₂²⁻/¹⁻ provided candidate structures and anion photoelectron spectra for Pt@Pb₁₀⁻¹ and Pt@Pb₁₂¹⁻. Together, the calculated and measured photoelectron spectra show that Pt@Pb₁₀⁻¹ and Pt@Pb₁₂²⁻/¹⁻ endohedral complexes maintain their respective D(4d) and slightly distorted I(h) symmetries in the gas phase even for the charge states with open shell character. Aside from the fullerenes, the Pt@Pb₁₂²⁻ endohedral complex is the only bare cluster that has been structurally characterized in the solid state, solution, and the gas phase.

摘要

阴离子光电子能谱和密度泛函理论计算的结合阐明了气相内嵌 Pt/Pb 笼状团簇阴离子的几何和电子结构。阴离子 Pt@Pb₁₀⁻¹ 和 Pt@Pb₁₂¹⁻是由晶体样品[K(2,2,2-crypt)]₂[Pt@Pb₁₂]产生的“预组装”团簇在独特的红外解吸/光电子阴离子源作用下带入气相制备得到的。使用晶体[K(2,2,2- crypt)]₂[Pt@Pb₁₂]也可以在气相中得到 KPt@Pb(n)阴离子(即 Pt@Pb(n)²⁻阴离子的 K⁺盐)。本文呈现了 Pt@Pb₁₀⁻¹、Pt@Pb₁₂¹⁻和 K[Pt@Pb₁₂]¹⁻的阴离子光电子能谱。Pt@Pb₁₀³⁻/²⁻/¹⁻/⁰ 和 Pt@Pb₁₂²⁻/¹⁻的大量密度泛函理论计算为 Pt@Pb₁₀⁻¹ 和 Pt@Pb₁₂¹⁻提供了候选结构和阴离子光电子能谱。一起,计算和测量的光电子能谱表明,Pt@Pb₁₀⁻¹ 和 Pt@Pb₁₂²⁻/¹⁻的内嵌配合物在气相中保持其各自的 D(4d)和略微扭曲的 I(h)对称性,即使对于具有开壳特征的电荷态也是如此。除了富勒烯之外,Pt@Pb₁₂²⁻的内嵌配合物是唯一在固态、溶液和气相中结构得到表征的裸露团簇。