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羰基钼辅助活性镁(I)化合物对一氧化碳的还原四聚反应:方酸二价阴离子金属烯酮的形成。

Molybdenum carbonyl assisted reductive tetramerization of CO by activated magnesium(i) compounds: squarate dianion metallo-ketene formation.

作者信息

Yuvaraj K, Mullins Jeremy C, Rajeshkumar Thayalan, Douair Iskander, Maron Laurent, Jones Cameron

机构信息

School of Chemistry, Monash University PO Box 23 VIC 3800 Australia http://www.monash.edu/science/research-groups/chemistry/jonesgroup

Université de Toulouse et CNRS, INSA, UPS, LPCNO UMR 5215, 135 Avenue de Rangueil F-31077 Toulouse France

出版信息

Chem Sci. 2023 Apr 24;14(19):5188-5195. doi: 10.1039/d3sc01487h. eCollection 2023 May 17.

DOI:10.1039/d3sc01487h
PMID:37206401
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10189904/
Abstract

Reactions of a dimagnesium(i) compound, [{(Nacnac)Mg}] (Nacnac = [HC(MeCNDip)], Dip = 2,6-diisopropylphenyl), pre-activated by coordination with simple Lewis bases (4-dimethylaminopyridine, DMAP; or TMC, :C(MeNCMe)), with 1 atmosphere of CO in the presence of one equivalent of Mo(CO) at room temperature, led to the reductive tetramerisation of the diatomic molecule. When the reactions were carried out at room temperature, there is an apparent competition between the formation of magnesium squarate, [{(Nacnac)Mg}{-(κ-CO)}{μ-Mg(Nacnac)}], and magnesium metallo-ketene products, [{(Nacnac)Mg}[μ-O[double bond, length as m-dash]CC{Mo(CO)}C(O)CO]{Mg(D)(Nacnac)}], which are not inter-convertible. Repeating the reactions at 80 °C led to the selective formation of the magnesium squarate, implying that this is the thermodynamic product. In an analogous reaction, in which THF is the Lewis base, only the metallo-ketene complex, [{(Nacnac)Mg}[μ-O[double bond, length as m-dash]CC{Mo(CO)}C(O)CO]{Mg(THF)(Nacnac)}] is formed at room temperature, while a complex product mixture is obtained at elevated temperature. In contrast, treatment of a 1 : 1 mixture of the guanidinato magnesium(i) complex, [(Priso)Mg-Mg(Priso)] (Priso = [PrNC(NDip)]), and Mo(CO), with CO gas in a benzene/THF solution, gave a low yield of the squarate complex, [{(Priso)(THF)Mg}{-(κ-CO)}{μ-Mg(THF)(Priso)}], at 80 °C. Computational analyses of the electronic structure of squarate and metallo-ketene product types corroborate the bonding proposed from experimental data, for the CO fragments of these systems.

摘要

一种二价镁(Ⅰ)化合物[{(Nacnac)Mg}](Nacnac = [HC(MeCNDip)],Dip = 2,6 - 二异丙基苯基),在室温下,在一当量的Mo(CO)存在下,与简单路易斯碱(4 - 二甲基氨基吡啶,DMAP;或TMC,:C(MeNCMe))配位预活化后,与1个大气压的CO反应,导致双原子分子发生还原四聚反应。当反应在室温下进行时,方形酸镁[{(Nacnac)Mg}{-(κ - CO)}{μ - Mg(Nacnac)}]和金属卡宾酮产物[{(Nacnac)Mg}[μ - O[双键,长度为m - 破折号]CC{Mo(CO)}C(O)CO]{Mg(D)(Nacnac)}]的形成之间存在明显竞争,且它们不能相互转化。在80℃重复该反应导致选择性地形成方形酸镁,这意味着它是热力学产物。在一个类似的反应中,其中四氢呋喃是路易斯碱,在室温下仅形成金属卡宾酮配合物[{(Nacnac)Mg}[μ - O[双键,长度为m - 破折号]CC{Mo(CO)}C(O)CO]{Mg(THF)(Nacnac)}],而在高温下得到复杂的产物混合物。相比之下,在苯/四氢呋喃溶液中,将胍基镁(Ⅰ)配合物[(Priso)Mg - Mg(Priso)](Priso = [PrNC(NDip)])和Mo(CO)的1:1混合物用CO气体处理,在80℃时方形酸配合物[{(Priso)(THF)Mg}{-(κ - CO)}{μ - Mg(THF)(Priso)}]的产率较低。对方形酸和金属卡宾酮产物类型的电子结构进行的计算分析证实了根据实验数据对这些体系中CO片段所提出的键合情况。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a759/10189904/cbf77f10f992/d3sc01487h-f5.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a759/10189904/d6c61fef1e43/d3sc01487h-f1.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a759/10189904/853a3f55dffd/d3sc01487h-s1.jpg
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