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Iron in a trigonal tris(alkoxide) ligand environment.三(烷氧基)配体环境中的铁。
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Synthesis of binucleating macrocycles and their nickel(II) hydroxo- and cyano-bridged complexes with divalent ions: anatomical variation of ligand features.双核大环的合成及其与二价离子的镍(II)羟桥和氰桥配合物:配体特征的解剖变异。
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Copper-catalyzed aerobic oxidative C-H functionalizations: trends and mechanistic insights.铜催化的有氧氧化 C-H 功能化反应:趋势和机理见解。
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Rapid C-H bond activation by a monocopper(III)-hydroxide complex.单核铜(III)-氢氧根配合物对 C-H 键的快速活化。
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5
Fast carbon dioxide fixation by 2,6-pyridinedicarboxamidato-nickel(II)-hydroxide complexes: influence of changes in reactive site environment on reaction rates.通过 2,6-吡啶二甲酰胺基镍(II)-氢氧化物配合物实现快速二氧化碳固定:反应部位环境变化对反应速率的影响。
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Serendipity strikes again--efficient preparation of lithium tetramethylcuprate(III) via rapid injection NMR.机缘巧合再次显现——通过快速注射 NMR 高效制备四甲基氯化亚铜(III)锂。
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Reactions of the terminal Ni(II)-OH group in substitution and electrophilic reactions with carbon dioxide and other substrates: structural definition of binding modes in an intramolecular Ni(II)...Fe(II) bridged site.取代反应和与二氧化碳及其他底物的亲电反应中末端 Ni(II)-OH 基团的反应:在分子内 Ni(II)…Fe(II)桥连位点中确定结合模式的结构定义。
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10
Preparation of sigma- and pi-allylcopper(III) intermediates in SN2 and SN2' reactions of organocuprate(I) reagents with allylic substrates.在有机铜酸盐(I)试剂与烯丙基底物的SN2和SN2'反应中制备σ-和π-烯丙基铜(III)中间体。
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(二羧酰胺)M(II)-OH(M =铜,镍)配合物的反应活性:与乙腈反应生成M(II)-氰甲基化物。

Reactivity of (Dicarboxamide)M(II)-OH (M = Cu, Ni) Complexes: Reaction with Acetonitrile to Yield M(II)-Cyanomethides.

作者信息

Tehranchi Jacqui, Donoghue Patrick J, Cramer Christopher J, Tolman William B

机构信息

Department of Chemistry, Center for Metals and Biocatalysis, Chemical Theory Center, and Supercomputing Institute, University of Minnesota, 207 Pleasant St. SE, Minneapolis, Minnesota 55455, , Homepage: www.chem.umn.edu/groups/tolman.

出版信息

Eur J Inorg Chem. 2013 Aug 1;2013(22-23). doi: 10.1002/ejic.201300328.

DOI:10.1002/ejic.201300328
PMID:24415908
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3885180/
Abstract

The complexes (BuN)(LM(II)-OH) (L = 2,6-dimethylphenyl-substituted pyridine(dicarboxamide); M = Cu or Ni) react with CHCN to yield (BuN)(LM-CHCN), novel cyanomethide complexes that were fully characterized, including by X-ray crystallography. These conversions contrast with the usual reactions of metal-hydroxide complexes with nitriles, which typically involve attack at the nitrile carbon and formation of amides or carboxylic acids. Kinetic studies (M = Cu) revealed a first-order dependence on the complex and a kinetic isotope effect ((CHCN)/(CDCN) of 4. Various mechanisms involving either intra- or intermolecular deprotonation steps are proposed. In addition, (BuN)(LCu-OH) was oxidized by FcPF to a proposed Cu(III) complex LCuOH at low temperature, and comparisons of its stability and reactivity with dihydroanthracene were drawn to its previously described congener having isopropyl substituents on the phenyl rings of the supporting ligand. The cyanomethide complex (BuN)(LCu(CHCN)) also was reversibly oxidized both electrochemically (E = -0.345 V vs. Fc/Fc) and chemically (FcPF, -25 °C). The product was formulated as LCu(III)(CHCN), a novel Cu(III)-alkyl complex relevant to such species proposed during copper-catalyzed organic reactions.

摘要

配合物(BuN)(LM(II)-OH)(L = 2,6-二甲基苯基取代的吡啶(二羧酰胺);M = Cu或Ni)与CHCN反应生成(BuN)(LM-CHCN),即新型氰甲基配合物,已通过包括X射线晶体学在内的多种方法对其进行了全面表征。这些转化与金属氢氧化物配合物与腈的常见反应形成对比,后者通常涉及腈碳的进攻以及酰胺或羧酸的形成。动力学研究(M = Cu)表明反应对配合物呈一级依赖性,并且存在动力学同位素效应((CHCN)/(CDCN)为4)。提出了涉及分子内或分子间去质子化步骤的各种机理。此外,(BuN)(LCu-OH)在低温下被FcPF氧化为推测的Cu(III)配合物LCuOH,并将其稳定性和与二氢蒽的反应性与其先前描述的在支撑配体苯环上具有异丙基取代基的同类物进行了比较。氰甲基配合物(BuN)(LCu(CHCN))也可通过电化学(E = -0.345 V vs. Fc/Fc)和化学方法(FcPF,-25°C)进行可逆氧化。产物被确定为LCu(III)(CHCN),这是一种新型的Cu(III)-烷基配合物,与铜催化的有机反应中提出的此类物种相关。