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含双足四甲基胍基配体的阳离子铜(I)试剂作为氮烯转移催化剂的比较研究

A Comparative Study of Cationic Copper(I) Reagents Supported by Bipodal Tetramethylguanidinyl-Containing Ligands as Nitrene-Transfer Catalysts.

作者信息

Sahoo Suraj Kumar, Harfmann Brent, Bhatia Himanshu, Singh Harish, Balijapelly Srikanth, Choudhury Amitava, Stavropoulos Pericles

机构信息

Department of Chemistry, Missouri University of Science and Technology, Rolla, Missouri 65409, United States.

出版信息

ACS Omega. 2024 Mar 21;9(13):15697-15708. doi: 10.1021/acsomega.4c00909. eCollection 2024 Apr 2.

DOI:10.1021/acsomega.4c00909
PMID:38585072
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10993379/
Abstract

The bipodal compounds (TMGbiphen)Cu-NCMe (R = Me, Ar (4-CFPh-)) and [(TMGbiphen)Cu-I] have been synthesized with ligands that feature a diarylmethyl- and triaryl-amine framework and superbasic tetramethylguanidinyl residues (TMG). The cationic Cu(I) sites mediate catalytic nitrene-transfer reactions between the imidoiodinane PhI = NTs (Ts = tosyl) and a panel of styrenes in MeCN, to afford aziridines, demonstrating comparable reactivity profiles. The copper reagents have been further explored to execute C-H amination reactions with a variety of aliphatic and aromatic hydrocarbons and two distinct nitrene sources PhI = NTs and PhI = NTces (Tces = 2,2,2-trichloroethylsulfamate) in benzene/HFIP (10:2 v/v). Good yields have been obtained for sec-benzylic and tert-C-H bonds of various substrates, especially with the more electron-deficient catalyst (TMGbiphen)Cu-NCMe. In conjunction with earlier studies, the order of reactivity of these bipodal cationic reagents as a function of the metal employed is established as Cu > Fe > Co ≥ Mn. However, as opposed to the base-metal analogues, the bipodal Cu reagents are less reactive than a similar tripodal Cu catalyst. The observed fluorophilicity of the bipodal Cu compounds may provide a deactivation pathway.

摘要

已合成了双足化合物(TMGbiphen)Cu - NCMe(R = Me,Ar (4 - CFPh - ))和[(TMGbiphen)Cu - I],其配体具有二芳基甲基和三芳基胺骨架以及超碱性四甲基胍基残基(TMG)。阳离子Cu(I)位点介导亚碘酰亚胺PhI = NTs(Ts = 对甲苯磺酰基)与一系列苯乙烯在乙腈中的催化氮烯转移反应,生成氮杂环丙烷,显示出相当的反应活性。已进一步探索铜试剂,使其在苯/六氟异丙醇(10:2 v/v)中与多种脂肪族和芳香族烃以及两种不同的氮烯源PhI = NTs和PhI = NTces(Tces = 2,2,2 - 三氯乙基氨基磺酸酯)进行C - H胺化反应。各种底物的仲苄基和叔C - H键均获得了良好的产率,特别是使用电子缺乏程度更高的催化剂(TMGbiphen)Cu - NCMe时。结合早期研究,确定了这些双足阳离子试剂作为所使用金属的函数的反应活性顺序为Cu > Fe > Co ≥ Mn。然而,与贱金属类似物不同,双足铜试剂的反应活性低于类似的三足铜催化剂。观察到的双足铜化合物的亲氟性可能提供了一种失活途径。

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