Crystal structures of seven mixed-valence gold compounds of the form [(R1R2R3PE)2AuI]+[AuIIIX4]− (R = tert-butyl or isopropyl, E = S or Se, and X = Cl or Br)

IF 0.5 Q4 CRYSTALLOGRAPHY

Acta Crystallographica Section E: Crystallographic Communications Pub Date : 2024-09-01 DOI:10.1107/S2056989024009095

Daniel Upmann , Dirk Bockfeld , Peter G. Jones , Eliza Târcoveanu

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Abstract

The ligands at the Au^I atoms are antiperiplanar to each other across the S⋯S vectors. Residues are linked by various contacts of the types C—H⋯X, E⋯X and Br⋯Br.

During our studies of the oxidation of gold(I) complexes of trialkylphosphane chalcogenides, general formula R¹R²R³PEAuX, (R = tert-butyl or isopropyl, E = S or Se, X = Cl or Br) with PhICl₂ or elemental bromine, we have isolated a set of seven mixed-valence by-products, the bis(trialkylphosphane chalcogenido)gold(I) tetrahalogenidoaurates(III) [(R¹R²R³PE)₂Au]⁺[AuX₄]⁻. These correspond to the addition of one halogen atom per gold atom of the Au^I precursor. Compound 1, bis(triisopropylphosphane sulfide)gold(I) tetrachloridoaurate(III), [Au(C₉H₂₁PS)₂][AuCl₄] or [(ⁱPr₃PS)₂Au][AuCl₄], crystallizes in space group P2₁/n with Z = 4; the gold(I) atoms of the two cations lie on twofold rotation axes, and the gold(III) atoms of the two anions lie on inversion centres. Compound 2, bis(tert-butyldiisopropylphosphane sulfide)gold(I) tetrachloridoaurate(III), [Au(C₁₀H₂₃PS)₂][AuCl₄] or [(^tBuⁱPr₂PS)₂Au][AuCl₄], crystallizes in space group P1 with Z = 4; the asymmetric unit contains two cations and two anions with no imposed symmetry. A least-squares fit of the two cations gave an r.m.s. deviation of 0.19 Å. Compound 3, bis(tri-tert-butylphosphane sulfide)gold(I) tetrachloridoaurate(III), [Au(C₁₂H₂₇PS)₂][AuCl₄] or [(^tBu₃PS)₂Au][AuCl₄], crystallizes in space group P1 with Z = 1; both gold atoms lie on inversion centres. Compound 4a, bis(tert-butyldiisopropylphosphane sulfide)gold(I) tetrabromidoaurate(III), [Au(C₁₀H₂₃PS)₂][AuBr₄] or [(^tBuⁱPr₂PS)₂Au][AuBr₄], crystallizes in space group P2₁/c with Z = 4; the cation lies on a general position, whereas the gold(III) atoms of the two anions lie on inversion centres. Compound 4b, bis(tert-butyldiisopropylphosphane selenide)gold(I) tetrabromidoaurate(III), [Au(C₁₀H₂₃PSe)₂][AuBr₄] or [(^tBuⁱPr₂PSe)₂Au][AuBr₄], is isotypic with 4a. Compound 5a, bis(tri-tert-butylphosphane sulfide)gold(I) tetrabromidoaurate(III), [Au(C₁₂H₂₇PS)₂][AuBr₄] or [(^tBu₃PS)₂Au][AuBr₄], is isotypic with compound 4a. Compound 5a, bis(tri-tert-butylphosphane sulfide)gold(I) tetrabromidoaurate(III), [Au(C₁₂H₂₇PS)₂][AuBr₄] or [(^tBu₃PS)₂Au][AuBr₄], crystallizes in space group P1 with Z = 1; both gold atoms lie on inversion centres. Compound 5b, bis(tri-tert-butylphosphane selenide)gold(I) tetrabromidoaurate(III), [Au(C₁₂H₂₇PSe)₂][AuBr₄] or [(^tBu₃PSe)₂Au][AuBr₄], is isotypic with 5a. All Au^I atoms are linearly coordinated and all Au^III atoms exhibit a square-planar coordination environment. The ligands at the Au^I atoms are antiperiplanar to each other across the S⋯S vectors. There are several short intramolecular H⋯Au and H⋯E contacts. Average bond lengths (Å) are: P—S = 2.0322, P—Se = 2.1933, S—Au = 2.2915, and Se—Au = 2.4037. The complex three-dimensional packing of 1 involves two short C—H_methine⋯Cl contacts (and some slightly longer contacts). For 2, four C—H_methine⋯Cl interactions combine to produce zigzag chains of residues parallel to the c axis. Additionally, an S⋯Cl contact is observed that might qualify as a ‘chalcogen bond’. The packing of 3 is three-dimensional, but can be broken down into two layer structures, each involving an S⋯Cl and an H⋯Cl contact. For the bromido derivatives 4a/b and 5a/b, loose associations of the anions form part of the packing patterns. For all four compounds, these combine with an E⋯Br contact to form layers parallel to the ab plane.

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七种形式为[(R 1 R 2 R 3PE)2AuI]+[AuIII X 4]-（R = 叔丁基或异丙基，E = S 或 Se，X = Cl 或 Br）的混合电价金化合物的晶体结构。

在研究通式为 R 1 R 2 R 3PEAuX 的三烷基膦烷基瑀金（I）络合物（R = 叔丁基或异丙基，E = S 或 Se）与 PhICl2 或元素溴的氧化反应过程中，我们分离出了一组七种混合价副产物，即双（三烷基膦烷基瑀金）络合物、X = Cl 或 Br）与 PhICl2 或元素溴反应，我们分离出了一组七价混合副产物，即双（三烷基膦酰基）金（I）四卤代金酸盐（III）[(R 1 R 2 R 3PE)2Au]+[AuX 4]-。这与 AuI 前体中每个金原子添加一个卤原子有关。化合物 1，双（三异丙基硫化膦）-金（I）四氯化物-金酸酯（III），[Au(C9H21PS)2][AuCl4] 或 [( i Pr3PS)2Au][AuCl4] 结晶于空间群 P21/n，Z = 4；两个阳离子的金（I）原子位于两倍旋转轴上，两个阴离子的金（III）原子位于反转中心。化合物 2，即双（叔丁基-二异丙基-硫化膦）-金（I）四氯化物-牛磺酸（III），[Au(C10H23PS)2][AuCl4] 或 [( t Bu i Pr2PS)2Au][AuCl4] 结晶于空间群 P1，Z = 4；不对称单元包含两个阳离子和两个阴离子，没有外加对称性。两个阳离子的最小二乘法拟合得出的 r.m.s. 偏差为 0.19 Å。化合物 3，双（三叔丁基硫化膦）-金（I）四氯金酸（III），[Au(C12H27PS)2][AuCl4] 或 [( t Bu3PS)2Au][AuCl4] 结晶于空间群 P1，Z = 1；两个金原子都位于反转中心。化合物 4a，双（叔丁基-二异丙基-硫化膦）-金（I）四溴-月桂酸（III），[Au(C10H23PS)2][AuBr4] 或 [( t Bu i Pr2PS)2Au][AuBr4] 结晶于空间群 P21/c，Z = 4；阳离子位于一般位置，而两个阴离子的金（III）原子位于反转中心。化合物 4b，即双-(叔丁基-二异丙基-膦硒化物)金(I)四溴-牛磺酸盐(III)，[Au(C10H23PSe)2][AuBr4] 或 [( t Bu i Pr2PSe)2Au][AuBr4] 与 4a 是同种异构体。化合物 5a，双-(三叔丁基硫化膦)-金(I)四溴-牛磺酸盐(III)，[Au(C12H27PS)2][AuBr4] 或 [( t Bu3PS)2Au][AuBr4] 与化合物 4a 同型。化合物 5a，双-(三叔丁基硫化膦)-金(I)四溴-牛磺酸盐(III)，[Au(C12H27PS)2][AuBr4] 或 [( t Bu3PS)2Au][AuBr4] 结晶于空间群 P1，Z = 1；两个金原子都位于反转中心。化合物 5b，即双(三叔丁基膦硒)金(I)四溴-牛磺酸盐(III)，[Au(C12H27PSe)2][AuBr4] 或 [( t Bu3PSe)2Au][AuBr4] 与 5a 同型。所有 AuI 原子均为线性配位，所有 AuIII 原子均呈现方形平面配位环境。AuI 原子上的配体在 S⋯S 轴上相互反全平面。分子内存在一些短的 H⋯Au 和 H⋯E 接触。平均键长（埃）为P-S = 2.0322，P-Se = 2.1933，S-Au = 2.2915，Se-Au = 2.4037。1 的复杂三维堆积涉及两个短的 C-Hmethine⋯Cl 接触（以及一些稍长的接触）。就 2 而言，四个 C-Hmethine⋯Cl 相互作用产生了平行于 c 轴的 "之 "字形残基链。此外，还可以观察到一个 S⋯Cl 接触点，该接触点可被称为 "缩醛键"。3 的堆积是三维的，但可以分解成两层结构，每层结构都涉及一个 S⋯Cl 接触点和一个 H⋯Cl 接触点。对于溴化衍生物 4a/b 和 5a/b，阴离子的松散结合构成了堆积模式的一部分。对于所有这四种化合物来说，它们都与 E⋯Br 触点结合在一起，形成平行于 ab 平面的层。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Acta Crystallographica Section E: Crystallographic Communications Chemistry-Chemistry (all)

CiteScore

1.90

自引率

0.00%

发文量

351

审稿时长

3 weeks

期刊介绍： Acta Crystallographica Section E: Crystallographic Communications is the IUCr''s open-access structural communications journal. It provides a fast, simple and easily accessible publication mechanism for crystal structure determinations of inorganic, metal-organic and organic compounds. The electronic submission, validation, refereeing and publication facilities of the journal ensure rapid and high-quality publication of fully validated structures. The primary article category is Research Communications; these are peer-reviewed articles describing one or more structure determinations with appropriate discussion of the science.