[XF₆][Sb₂F₁₁]（X = Cl、Br、I）的X射线晶体结构；XF₆⁺阳离子的（³⁵,³⁷）Cl、（⁷⁹,⁸¹）Br和（¹²⁷）I核磁共振研究及电子结构计算

X-ray crystal structures of [XF(6)][Sb(2)F(11)] (X = Cl, Br, I); (35,37)Cl, (79,81)Br, and (127)I NMR studies and electronic structure calculations of the XF(6)(+) cations.

作者信息

Lehmann John F, Schrobilgen Gary J, Christe Karl O, Kornath Andreas, Suontamo Reijo J

机构信息

Department of Chemistry, McMaster University, Hamilton, Ontario, L8S 4M1, Canada.

出版信息

Inorg Chem. 2004 Nov 1;43(22):6905-21. doi: 10.1021/ic040015o.

DOI:10.1021/ic040015o

PMID:15500329

Abstract

The single-crystal X-ray structures of [XF(6)][Sb(2)F(11)] (X = Cl, Br, I) have been determined and represent the first detailed crystallographic study of salts containing the XF(6)(+) cations. The three salts are isomorphous and crystallize in the monoclinic space group P2(1)/n with Z = 4: [ClF(6)][Sb(2)F(11)], a = 11.824(2) A, b = 8.434(2) A, c = 12.088(2) A, beta = 97.783(6) degrees , V = 1194.3(4) A(3), R(1) = 0.0488 at -130 degrees C; [BrF(6)][Sb(2)F(11)], a = 11.931(2) A, b = 8.492(2) A, c = 12.103(2) A, beta = 97.558(4) degrees , V = 1215.5(4) A(3), R(1) = 0.0707 at -130 degrees C; [IF(6)][Sb(2)F(11)], a = 11.844(1) A, b = 8.617(1) A, c = 11.979(2) A, beta = 98.915(2) degrees , V = 1207.8(3) A(3), R(1) = 0.0219 at -173 degrees C. The crystal structure of [IF(6)][Sb(2)F(11)] was also determined at -100 degrees C and was found to crystallize in the monoclinic space group P2(1)/m with Z = 4, a = 11.885(1) A, b = 8.626(1) A, c = 12.000(1) A, beta = 98.44(1), V = 1216.9(2) A(3), R(1) = 0.0635. The XF(6)(+) cations have octahedral geometries with average Cl-F, Br-F, and I-F bond lengths of 1.550(4), 1.666(11) and 1.779(6) [-173 degrees C]/1.774(8) [-100 degrees C] A, respectively. The chemical shifts of the central quadrupolar nuclei, (35,37)Cl, (79,81)Br, and (127)I, were determined for [ClF(6)][AsF(6)] (814 ppm), [BrF(6)][AsF(6)] (2080 ppm), and [IF(6)][Sb(3)F(16)] (3381 ppm) in anhydrous HF solution at 27 degrees C, and spin-inversion-recovery experiments were used to determine the T(1)-relaxation times of (35)Cl (1.32(3) s), (37)Cl (2.58(6) s), (79)Br (24.6(4) ms), (81)Br (35.4(5) ms), and (127)I (6.53(1) ms). Trends among the central halogen chemical shifts and T(1)-relaxation times of XF(6)(+), XO(4)(-), and X(-) are discussed. The isotropic (1)J-coupling constants and reduced coupling constants for the XF(6)(+) cations and isoelectronic hexafluoro species of rows 3-6 are empirically assessed in terms of the relative contributions of the Fermi-contact, spin-dipolar, and spin-orbit mechanisms. Electronic structure calculations using Hartree-Fock, MP2, and local density functional methods were used to determine the energy-minimized gas-phase geometries, atomic charges, and Mayer bond orders of the XF(6)(+) cations. The calculated vibrational frequencies are in accord with the previously published assignments and experimental vibrational frequencies of the XF(6)(+) cations. Bonding trends within the XF(6)(+) cation series have been discussed in terms of natural bond orbital (NBO) analyses, the ligand close-packed (LCP) model, and the electron localization function (ELF).

摘要

已确定[XF₆][Sb₂F₁₁]（X = Cl、Br、I）的单晶X射线结构，这是对含XF₆⁺阳离子盐的首次详细晶体学研究。这三种盐是同晶型的，在单斜空间群P2₁/n中结晶，Z = 4：[ClF₆][Sb₂F₁₁]，a = 11.824(2) Å，b = 8.434(2) Å，c = 12.088(2) Å，β = 97.783(6)°，V = 1194.3(4) Å³，-130°C时R(1) = 0.0488；[BrF₆][Sb₂F₁₁]，a = 11.931(2) Å，b = 8.492(2) Å，c = 12.103(2) Å，β = 97.558(4)°，V = 1215.5(4) Å³，-130°C时R(1) = 0.0707；[IF₆][Sb₂F₁₁]，a = 11.844(1) Å，b = 8.617(1) Å，c = 11.979(2) Å，β = 98.915(2)°，V = 1207.8(3) Å³，-173°C时R(1) = 0.0219。[IF₆][Sb₂F₁₁]的晶体结构在-100°C时也已确定，发现其在单斜空间群P2₁/m中结晶，Z = 4，a = 11.885(1) Å，b = 8.626(1) Å，c = 12.000(1) Å，β = 98.44(1)，V = 1216.9(2) Å³，R(1) = 0.0635。XF₆⁺阳离子具有八面体几何构型，平均Cl - F、Br - F和I - F键长分别为1.550(4)、1.666(11)和1.779(6) [-173°C]/1.774(8) [-100°C] Å。在27°C的无水HF溶液中测定了[ClF₆][AsF₆]（814 ppm）、[BrF₆][AsF₆]（2080 ppm）和[IF₆][Sb₃F₁₆]（3381 ppm）中中心四极核（³⁵,³⁷Cl、⁷⁹,⁸¹Br和¹²⁷I）的化学位移，并使用自旋反转恢复实验测定了³⁵Cl（1.32(3) s）、³⁷Cl（2.58(6) s）、⁷⁹Br（²⁴.⁶(4) ms）、⁸¹Br（³⁵.⁴(5) ms）和¹²⁷I（6.53(1) ms）的T₁弛豫时间。讨论了XF₆⁺、XO₄⁻和X⁻的中心卤素化学位移和T₁弛豫时间的趋势。根据费米接触、自旋偶极和自旋轨道机制的相对贡献，对XF₆⁺阳离子和第3 - 6行等电子六氟物种的各向同性¹J耦合常数和约化耦合常数进行了经验评估。使用哈特里 - 福克、MP2和局域密度泛函方法进行电子结构计算，以确定XF₆⁺阳离子的能量最小化气相几何构型、原子电荷和迈耶键级。计算得到的振动频率与先前发表的XF₆⁺阳离子的归属和实验振动频率一致。已根据自然键轨道（NBO）分析、配体紧密堆积（LCP）模型和电子定位函数（ELF）讨论了XF₆⁺阳离子系列中的键合趋势。