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二氢化铝的部分脱氢反应。

The partial dehydrogenation of aluminium dihydrides.

作者信息

Hooper Thomas N, Lau Samantha, Chen Wenyi, Brown Ryan K, Garçon Martí, Luong Karen, Barrow Nathan S, Tatton Andrew S, Sackman George A, Richardson Christopher, White Andrew J P, Cooper Richard I, Edwards Alison J, Casely Ian J, Crimmin Mark R

机构信息

Department of Chemistry , Molecular Sciences Research Hub , Imperial College London , 80 Wood Lane, Shepherds Bush , London , W12 0BZ , UK . Email:

Johnson Matthey Technology Centre , Blounts Court, Sonning Common , Reading , RG4 9NH , UK.

出版信息

Chem Sci. 2019 Aug 13;10(35):8083-8093. doi: 10.1039/c9sc02750e. eCollection 2019 Sep 21.

DOI:10.1039/c9sc02750e
PMID:31762968
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6855256/
Abstract

The reactions of a series of β-diketiminate stabilised aluminium dihydrides with ruthenium bis(phosphine), palladium bis(phosphine) and palladium cyclopentadienyl complexes is reported. In the case of ruthenium, alane coordination occurs with no evidence for hydrogen loss resulting in the formation of ruthenium complexes with a pseudo-octahedral geometry and -relation of phosphine ligands. These new ruthenium complexes have been characterised by multinuclear and variable temperature NMR spectroscopy, IR spectroscopy and single crystal X-ray diffraction. In the case of palladium, a series of structural snapshots of alane dehydrogenation have been isolated and crystallographically characterised. Variation of the palladium precursor and ligand on aluminium allows kinetic control over reactivity and isolation of intermetallic complexes that contain new Pd-Al and Pd-Pd interactions. These complexes differ by the ratio of H : Al (2 : 1, 1.5 : 1 and 1 : 1) with lower hydride content species forming with dihydrogen loss. A combination of X-ray and neutron diffraction studies have been used to interrogate the structures and provide confidence in the assignment of the number and position of hydride ligands. Al MAS NMR spectroscopy and calculations (DFT, QTAIM) have been used to gain an understanding of the dehydrogenation processes. The latter provide evidence for dehydrogenation being accompanied by metal-metal bond formation and an increased negative charge on Al due to the covalency of the new metal-metal bonds. To the best of our knowledge, we present the first structural information for intermediate species in alane dehydrogenation including a rare neutron diffraction study of a palladium-aluminium hydride complex. Furthermore, as part of these studies we have obtained the first SS Al NMR data on an aluminium(i) complex. Our findings are relevant to hydrogen storage, materials chemistry and catalysis.

摘要

本文报道了一系列β-二酮亚胺稳定的二氢化铝与双(膦)钌、双(膦)钯和环戊二烯基钯配合物的反应。对于钌而言,铝烷发生配位,没有氢损失的迹象,从而形成具有伪八面体几何结构和膦配体相对关系的钌配合物。这些新型钌配合物已通过多核和变温核磁共振光谱、红外光谱和单晶X射线衍射进行了表征。对于钯,已分离出一系列铝烷脱氢的结构快照并通过晶体学进行了表征。改变钯前体和铝上的配体,可以对反应活性进行动力学控制,并分离出含有新的Pd-Al和Pd-Pd相互作用的金属间配合物。这些配合物的H : Al比例不同(2 : 1、1.5 : 1和1 : 1),氢化物含量较低的物种会伴随氢气损失而形成。结合X射线和中子衍射研究来探究结构,并确定氢化物配体的数量和位置。利用铝的固体核磁共振光谱和计算(密度泛函理论、量子拓扑原子理论)来了解脱氢过程。后者提供了证据,表明脱氢伴随着金属-金属键的形成,并且由于新金属-金属键的共价性,铝上的负电荷增加。据我们所知,我们首次给出了铝烷脱氢中间物种的结构信息,包括对钯-铝氢化物配合物进行的罕见中子衍射研究。此外,作为这些研究的一部分,我们首次获得了铝(I)配合物的固体铝核磁共振数据。我们的研究结果与储氢、材料化学和催化相关。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d737/6855256/dbdb8d6f11b9/c9sc02750e-f5.jpg
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