von Randow Clara A, Thiele Günther
Fachbereich Biologie, Chemie, Pharmazie, Freie Universität Berlin, Fabeckstraße 34-36, 14195, Berlin, Germany.
Chemistry Research Laboratory, University of Oxford, 12 Mansfield Rd., OX1 3TA, Oxford, United Kingdom.
Chemistry. 2024 Sep 25;30(54):e202401098. doi: 10.1002/chem.202401098. Epub 2024 Sep 5.
Birch reactions employing alkali metals in ammonia have been a well-established method for the reduction and functionalisation of aromatic compounds for nearly 100 years. Speculations regarding intermediates in the reaction pathway have been discussed since the beginning. We hereby report the isolation of NMe(HNaph) (1), a kinetically trapped intermediate of the Birch reaction of naphthalene and sodium in liquid ammonia. 1 has been fully characterised and has been shown to continue to react to 1,2/1,4-dihydronaphthalene - the Birch product of the reduction of naphthalene. The reactivity of 1 was investigated towards activity as an electron and hydride transfer agent with both, elements and small organic molecules. 1 demonstrates a tamed reduction potential which allows for controlled reactions such as the selective formation of hexasulphide and hexaselenide anions.
近100年来,在液氨中使用碱金属的伯奇反应一直是一种成熟的用于芳香族化合物还原和官能化的方法。从一开始就有人讨论反应途径中中间体的相关推测。我们在此报告了NMe(HNaph)(1)的分离,它是萘与钠在液氨中进行伯奇反应的动力学捕获中间体。1已得到充分表征,并已证明会继续反应生成1,2/1,4 - 二氢萘——萘还原的伯奇反应产物。研究了1作为电子和氢化物转移剂与元素及小分子反应的活性。1表现出适度的还原电位,这使得可控反应成为可能,比如选择性形成六硫化物和六硒化物阴离子。
