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铜(II)介导的芳环邻位羟基化:密度泛函理论(DFT)与从头算的混合研究

CopperII-mediated aromatic ortho-hydroxylation: a hybrid DFT and AB initio exploration.

作者信息

Comba Peter, Knoppe Stefan, Martin Bodo, Rajaraman Gopalan, Rolli Claudio, Shapiro Brett, Stork Timon

机构信息

Universität Heidelberg, Anorganisch-Chemisches Institut, INF 270, 69120 Heidelberg, Germany.

出版信息

Chemistry. 2008;14(1):344-57. doi: 10.1002/chem.200700865.

DOI:10.1002/chem.200700865
PMID:17907133
Abstract

Mechanistic pathways for the aromatic hydroxylation by CuII(L1)(TMAO)(O) (L1=hippuric acid, TMAO=trimethylamine N-oxide), derived from the O--N bond homolysis of its [CuII(L1)(TMAO)2] precursor, were explored by using hybrid density functional theory (B3LYP) and highly correlated ab initio methods (QCISD and CCSD). Published experimental studies suggest that the catalytic reaction is triggered by a terminal copper-oxo species, and a detailed study of electronic structures, bonding, and energetics of the corresponding electromers is presented. Two pathways, a stepwise and a concerted reaction, were considered for the hydroxylation process. The results reveal a clear preference for the concerted pathway, in which the terminal oxygen atom directly attacks the carbon atom of the benzene ring, leading to the ortho-selectively hydroxylated product. Solvent effects were probed by using the PCM and CPCM solvation models, and the PCM model was found to perform better in the present case. Excellent agreement between the experimental and computational results was found, in particular also for changes in reactivity with derivatives of L1.

摘要

通过混合密度泛函理论(B3LYP)和高度相关的从头算方法(QCISD和CCSD),探索了由[CuII(L1)(TMAO)2]前体的O-N键均裂产生的[CuII(L1)(TMAO)(O)](-)(L1 = 马尿酸,TMAO = 三甲胺N-氧化物)进行芳族羟基化的机理途径。已发表的实验研究表明,催化反应由末端铜氧物种引发,并对相应电子异构体的电子结构、键合和能量学进行了详细研究。对于羟基化过程考虑了两种途径,即分步反应和协同反应。结果表明明显倾向于协同途径,其中末端氧原子直接攻击苯环的碳原子,生成邻位选择性羟基化产物。使用PCM和CPCM溶剂化模型探究了溶剂效应,发现PCM模型在当前情况下表现更好。实验结果与计算结果之间发现了极好的一致性,特别是对于L1衍生物的反应性变化也是如此。

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