Site-selective methylene C–H oxidation of an alkyl diamine enabled by supramolecular recognition using a bioinspired manganese catalyst†

IF 3.3 3区化学 Q2 CHEMISTRY, PHYSICAL Faraday Discussions Pub Date : 2023-01-06 DOI:10.1039/D2FD00177B

Arnau Vicens, Laia Vicens, Giorgio Olivo, Osvaldo Lanzalunga, Stefano Di Stefano and Miquel Costas

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Abstract

Site-selective oxidation of aliphatic C–H bonds is a powerful synthetic tool because it enables rapid build-up of product complexity and diversity from simple precursors. Besides the poor reactivity of alkyl C–H bonds, the main challenge in this reaction consists in differentiating between the multiple similar sites present in most organic molecules. Herein, a manganese oxidation catalyst equipped with two 18-benzo-6-crown ether receptors has been employed in the oxidation of the long chain tetradecane-1,14-diamine. ¹H-NMR studies evidence simultaneous binding of the two protonated amine moieties to the crown ether receptors. This recognition has been used to pursue site-selective oxidation of a methylenic site, using hydrogen peroxide as oxidant in the presence of carboxylic acids as co-ligands. Excellent site-selectivity towards the central methylenic sites (C6 and C7) is observed, overcoming selectivity parameters derived from polar deactivation by simple amine protonation and selectivity observed in the oxidation of related monoprotonated amines.

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使用生物启发锰催化剂†，通过超分子识别实现烷基二胺的亚甲基C-H氧化

脂肪族C-H键的位点选择性氧化是一种强大的合成工具，因为它可以从简单的前体快速建立产品的复杂性和多样性。除了烷基C-H键的反应性差之外，该反应的主要挑战在于区分大多数有机分子中存在的多个相似位点。本文采用一种具有两个18-苯并-6-冠醚受体的锰氧化催化剂氧化长链十四烷-1,14-二胺。1H-NMR研究证明两个质子化胺部分同时结合到冠醚受体。这种识别已被用于追求亚甲基位点的选择性氧化，使用过氧化氢作为氧化剂，在羧酸作为共配体的存在下。对中心亚甲基(C6和C7)具有优异的选择性，克服了简单胺质子化极性失活的选择性参数和相关单质子化胺氧化的选择性参数。

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