620-89-3Relevant articles and documents
Diarylamine Synthesis via Desulfinylative Smiles Rearrangement
Sephton, Thomas,Large, Jonathan M.,Butterworth, Sam,Greaney, Michael F.
, p. 1132 - 1135 (2022/02/09)
Diarylamines are obtained directly from sulfinamides through a novel rearrangement sequence. The transformation is transition metal-free and proceeds under mild conditions, providing facile access to highly sterically hindered diarylamines that are otherw
A post-synthetically modified metal-organic framework for copper catalyzed denitrative C-N coupling of nitroarenes under heterogeneous conditions
Maity, Tanmoy,Ghosh, Pameli,Das, Soma,Saha, Debraj,Koner, Subratanath
, p. 5568 - 5575 (2021/04/06)
Here we report, for the first time, the Ullmann C-N coupling reaction of nitroarenes which is achieved by using a copper containing metal-organic framework (MOF) catalyst under heterogenous conditions. The ready availability of nitroarenes and their low cost have made them ideal replacements for haloarenes as electrophilic coupling partners. Notably, the reaction protocol suppresses the by-product formation in the catalytic reaction. The catalyst has been designed and synthesized by two step post-synthesis functionalization of a MOF,viz.dabco MOF-1 with a -NH2functional group (DMOF-NH2). In the post-synthetic treatment, salicylaldehyde has been used for organic modification first and then copper(ii) was successfully incorporated onto the inner surface of the porous material. The hybrid porous solid thus obtained has been employed in the catalytic C-N coupling reaction of nitroarenes with a wide variety of amines under heterogeneous conditions, which displayed very high turnover frequencies (TOF) in catalytic reactions attesting its efficacy towards theN-arylation reaction.
NaBHT Generated in Situ from BHT and NaO tBu: Crystallographic Characterization and Applications in Buchwald-Hartwig Amination
Semeniuchenko, Volodymyr,Ovens, Jeffrey S.,Braje, Wilfried M.,Organ, Michael G.
, p. 3276 - 3290 (2021/10/12)
NaBHT is a valuable medium-strength base useful for many applications, particularly for Buchwald-Hartwig coupling. The structures of solvent-free NaBHT and its solvates with Et2O, THF, tBuOH, and a THF/tBuOH mixture were established using single-crystal X-ray diffraction. While [NaBHT·Et2O]2 adopts a dimeric structure and crystallizes in a monoclinic cell, [NaBHT·THF]3, [NaBHT·tBuOH]3, and [NaBHT·(THF-tBuOH)]3 prefer a trimeric structure and crystallize in cubic cells. Solvent-free [NaBHT]n is different from solvated NaBHT and from other known sodium phenolates. It is an inorganic polymer that crystallizes in an orthorhombic cell, with a NaO core spreading in the [1 0 0] direction. Agostic interactions of the tBu group hydrogens with Na, which were confirmed for all structures, may help explain the reductive properties of NaBHT. Further, interactions of BHT with tBuONa in solution and in the solid state were examined, reveraling that NaBHT does not need to be prepared from pyrophoric NaH or metallic Na every time. Instead, it can be generated efficiently in or ex situ using NaOtBu in solution or with only a stoichiometric amount of solvent to assist in bringing the reactants together. Application of this methodology was demonstrated with the efficient, solvent-free, and Pd-catalyzed C-N coupling with Pd(NHC) catalysts.
