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π 单键物种的动力学稳定性和反应性:烷氧基对单重态 2,2-二烷氧基-1,3-二苯基辛二氢苯并戊二烯-1,3-二基寿命的影响。

Kinetic stabilization and reactivity of π single-bonded species: effect of the alkoxy group on the lifetime of singlet 2,2-dialkoxy-1,3-diphenyloctahydropentalene-1,3-diyls.

机构信息

Department of Chemistry, Graduate School of Science, Hiroshima University (HIRODAI), 1-3-1 Kagamiyama, Higashi-Hiroshima, Hiroshima 739-8526, Japan.

出版信息

Chemistry. 2013 Jul 29;19(31):10395-404. doi: 10.1002/chem.201300038. Epub 2013 Jun 20.

DOI:10.1002/chem.201300038
PMID:23787808
Abstract

Kinetic stabilization and reactivity of π single-bonded species have been investigated in detail by generating a series of singlet 2,2-dialkoxy-1,3-diphenyloctahydropentalene-1,3-diyls (DRs). The lifetime at 293 K in benzene was found to increase when the carbon chain length of the alkoxy groups was increased; 292 ns (DRb; OR = OR' = OCH3) <880 ns (DRc; OR = OR' = OC2H5) <1899 ns (DRd; OR = OR' = OC3H7) ≈2292 ns (DRe; OR = OR' = OC6H13) ≈2146 ns (DRf; OR = OR' = OC10H21). DRh (OR = OC3H7, OR' = OCH3; 935 ns) with the mixed-acetal moiety is a longer-lived species than another diastereomer DRg (OR = OCH3, OR' = OC3H7; 516 ns). Activation parameters determined for the first-order decay process reveal that the enthalpy factor plays a crucial role in determining the energy barrier of the ring-closing reaction, that is, from the π-bonding to the σ-bonding compounds. Computational studies using density functional theory provided more insight into the structures of the singlet species with π single-bonded character and the transition states for the ring-closing reaction, thereby clarifying the role of the alkoxy group on the lifetime and the stereoselectivity of the ring-closing reaction.

摘要

已通过生成一系列单重态 2,2-二烷氧基-1,3-二苯基辛烷-1,3-二基(DR)详细研究了π单键物种的动力学稳定性和反应性。在苯中的 293 K 时的寿命发现随着烷氧基的碳链长度的增加而增加;292 ns(DRb;OR = OR' = OCH3)<880 ns(DRc;OR = OR' = OC2H5)<1899 ns(DRd;OR = OR' = OC3H7)≈2292 ns(DRe;OR = OR' = OC6H13)≈2146 ns(DRf;OR = OR' = OC10H21)。具有混合缩醛部分的 DRh(OR = OC3H7,OR' = OCH3;935 ns)是比另一种非对映异构体 DRg(OR = OCH3,OR' = OC3H7;516 ns)寿命更长的物种。确定的一级衰减过程的活化参数表明,焓因子在确定环封闭反应的能量障碍方面起着关键作用,即从π键合到σ键合化合物。使用密度泛函理论的计算研究提供了对具有π单键特征的单重态物种和环封闭反应的过渡态的结构的更深入的了解,从而阐明了烷氧基对环封闭反应的寿命和立体选择性的作用。

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