定量研究二氧代-Mo(VI)三吡唑基硼酸配合物中氧化转移反应的配体效应。

Quantitation of the ligand effect in oxo-transfer reactions of dioxo-Mo(VI) trispyrazolyl borate complexes.

机构信息

Department of Chemistry and Biochemistry, Duquesne University, Pittsburgh, PA 15228, USA.

出版信息

Dalton Trans. 2013 Mar 7;42(9):3071-81. doi: 10.1039/c2dt32349d. Epub 2012 Dec 4.

DOI:10.1039/c2dt32349d

PMID:23212540

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3566299/

Abstract

The oxygen atom transfer reactivity (OAT) of dioxo-Mo(VI) complexes of hydrotrispyrazolyl borate (hydrotris(3,5-dimethylpyrazolyl)borate, Tp(Me2); hydrotris(3-isopropylpyrazol-1-yl)borate, Tp(iPr)) with tertiary phosphines (PMe(3), PMe(2)Ph, PEt(3), PEt(2)Ph, PBu(n)(3), PMePh(2), or PEtPh(2)) has been investigated. In acetonitrile, these reactions proceed via the formation of a phosphoryl intermediate complex that undergoes a solvolysis reaction. We report the synthesis and characterization of several phosphoryl complexes. The rates of formation of phosphoryl complexes and their solvation were determined by spectrophotometry. The rates of the reactions and the properties of the phosphoryl species were investigated using the Quantitative Analysis of Ligand Effect (QALE) methodology. The results show that, at least in this system, the first step of the reaction is controlled primarily by the steric factor, and in the second step, both electronic and steric factors are important. We also analyzed the effect of ligands on the reaction rate i.e., Tp(Me2)vs. Tp(iPr).

摘要

双氧钼（VI）配合物与叔膦（PMe3、PMe2Ph、PEt3、PEt2Ph、PBun（3）、PMePh2 或 PEtPh2）的氧原子转移反应（OAT）已被研究。在乙腈中，这些反应通过形成磷酰基中间体复合物进行，该复合物经历溶剂解反应。我们报告了几种磷酰基配合物的合成和表征。通过分光光度法确定了磷酰基配合物的形成速率及其溶剂化作用。使用定量配体效应分析（QALE）方法研究了反应速率和磷酰基物种的性质。结果表明，至少在这个体系中，反应的第一步主要由空间位阻因素控制，而在第二步中，电子和空间位阻因素都很重要。我们还分析了配体对反应速率的影响，即 Tp(Me2)与 Tp(iPr)。

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