F−和(HF)n之间氢键团簇的核磁共振:实验和理论

Ilja G. Shenderovich, Sergei N. Smirnov, Gleb S. Denisov, Vladimir A. Gindin, Nikolai S. Golubev, Anita Dunger, Rebecca Reibke, Sheela Kirpekar, Olga L. Malkina, Hans-Heinrich Limbach
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引用次数: 134

摘要

对四丁基氟化铵与HF的混合物在CDF3和CDF2Cl的1:2混合物中溶解,在110 ~ 150 K的温度范围内进行了液态1H和19F核磁共振实验。在这些条件下,F−和不同数量的HF分子之间的氢键配合物在缓慢的质子和氢键交换中被观察到。在低HF浓度下,观察到众所周知的氟化氢离子[FHF]−,表现出强对称的氢键。在较高的HF浓度下,形成了[F(HF)2]−,[F(HF)3]−和我们赋予其结构的[F(HF)4]−。光谱显示一个中心氟化物阴离子与HF形成多个氢键。随着HF单元数的增加,氢键质子向末端氟原子移动。用从头算法计算了优化后的[F(HF)n]−,n = 1 ~ 4的气相几何形状,证实了这些离子的D∞h、C2v、D3h和Td的对称性。首次观测到氢键质子与氢桥的两个重原子之间的单键耦合,这里是1JHF和1JHF,其中|1JHF|≥|1JHF’|,以及重原子之间的双键耦合,这里是2JFF。通过对各种多组分的差宽的分析,证明了这些常数的符号,即1JHF和2JSF>0,和1JHF|。& lt; 0。用密度泛函形式和多构型完全活性空间方法从头算核磁共振化学位移和标量耦合常数,与实验参数吻合较好,证实了所研究氢键的共价性质。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Nuclear magnetic resonance of hydrogen bonded clusters between F− and (HF)n: Experiment and theory

Liquid state 1H and 19F NMR experiments in the temperature range between 110 and 150 K have been performed on mixtures of tetrabutylammonium fluoride with HF dissolved in a 1:2 mixture of CDF3 and CDF2Cl. Under these conditions hydrogen bonded complexes between F and a varying number of HF molecules were observed in the slow proton and hydrogen bond exchange regime. At low HF concentrations the well known hydrogen bifluoride ion [FHF] is observed, exhibiting a strong symmetric H-bond. At higher HF concentrations the species [F(HF)2], [F(HF)3] are formed and a species to which we assign the structure [F(HF)4]. The spectra indicate a central fluoride anion which forms multiple hydrogen bonds to HF. With increasing number of HF units the hydrogen bond protons shift towards the terminal fluorine's. The optimized gas-phase geometries of [F(HF)n], n = 1 to 4, calculated using ab initio methods confirm the D∞h, C2v, D3h and Td symmetries of these ions. For the first time, both one-bond couplings between a hydrogen bond proton and the two heavy atoms of a hydrogen bridge, here 1JHF and 1JHF where |1JHF|≥|1JHF'|, as well as a two-bond coupling between the heavy atoms, here 2JFF, have been observed. The analysis of the differential width of various multiplet components gives evidence for the signs of these constants, i.e. 1JHF and 2JSF>0, and 1JHF|. <0. Ab initio calculations of NMR chemical shifts and the scalar coupling constants using the Density Functional formalism and the Multi-configuration Complete Active Space method show a reasonable agreement with the experimental parameters and confirm the covalent character of the hydrogen bonds studied.

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