Koptseva Tatyana S, Sokolov Vladimir G, Ketkov Sergey Yu, Rychagova Elena A, Cherkasov Anton V, Skatova Alexandra A, Fedushkin Igor L
G.A. Razuvaev Institute of Organometallic Chemistry of, Russian Academy of Sciences, 603950, Nizhny Novgorod, Tropinina str. 49, Russian Federation.
Chemistry. 2021 Mar 26;27(18):5745-5753. doi: 10.1002/chem.202004991. Epub 2021 Mar 1.
The reaction of dialane [LAl-AlL] (1; L=dianion of 1,2-bis[(2,6-diisopropylphenyl)imino]acenaphthene, dpp-bian) with carbon dioxide results in two different products depending on solvent. In toluene at temperatures of about 0 °C, the reaction gives cycloadduct [L(CO )Al-Al(O C)L] (2), whereas in diethyl ether, the reaction affords oxo-bridged carbamato derivative [L(CO )(Et O)Al(μ-O)AlL] (3). The DFT and QTAIM calculations provide reasonable explanations for the reversible formation of complex 2 in the course of two subsequent (2+4) cycloaddition reactions. Consecutive transition states with low activation barriers were revealed. Also, the DFT study demonstrated a crucial effect of diethyl ether coordination to aluminium on the reaction of dialane 1 with CO . The optimized structures of key intermediates were obtained for the reactions in the presence of Et O; calculated thermodynamic parameters unambiguously testify the irreversible formation of the product 3.
二铝烷[LAl-AlL](1;L = 1,2-双[(2,6-二异丙基苯基)亚氨基]苊的二价阴离子,dpp-bian)与二氧化碳反应,根据溶剂的不同会生成两种不同的产物。在约0 °C的甲苯中,反应生成环加成产物[L(CO )Al-Al(O C)L](2),而在乙醚中,反应得到氧桥联氨基甲酸酯衍生物[L(CO )(Et O)Al(μ-O)AlL](3)。DFT和QTAIM计算为配合物2在两个连续的(2+4)环加成反应过程中的可逆形成提供了合理的解释。揭示了具有低活化能垒的连续过渡态。此外,DFT研究表明乙醚与铝的配位对二铝烷1与CO 的反应有至关重要的影响。在存在Et O的情况下获得了关键中间体的优化结构;计算得到的热力学参数明确证明了产物3的不可逆形成。
