850380-23-3Relevant articles and documents
Rhodium-Catalyzed Dealkenylative Arylation of Alkenes with Arylboronic Compounds
Das, Mowpriya,Glorius, Frank,Maisuls, Iván,Strassert, Cristian A.,Tan, Guangying
supporting information, p. 15650 - 15655 (2021/06/08)
The C?C bond formation reaction represents a fundamental and important transformation in synthetic chemistry, and exploring new types of C?C bond formation reactions is recognized as appealing, yet challenging. Herein, we disclose the first example of rhodium-catalyzed dealkenylative arylation of alkenes with arylboronic compounds, thereby providing an unconventional access to bi(hetero)aryls with excellent chemoselectivity. In this method, C(aryl)?C(alkenyl) and C(alkenyl)?C(alkenyl) bonds in various alkenes and 1,3-dienes can be cleaved via a hydrometalation and followed by β-carbon elimination pathway for Suzuki–Miyaura reactions. Furthermore, a series of novel organic fluorescent molecules with excellent photophysical properties has been efficiently constructed with this protocol.
C?N Cross-Coupling Reactions Under Mild Conditions Using Singlet Di-Radical Nickel(II)-Complexes as Catalyst: N-Arylation and Quinazoline Synthesis
Sikari, Rina,Sinha, Suman,Chakraborty, Gargi,Das, Siuli,van Leest, Nicolaas Petrus,Paul, Nanda D.
supporting information, p. 4342 - 4353 (2019/08/21)
Herein we report a cost-effective synthetic approach for C?N cross-coupling reactions of a broad array of nitrogen nucleophiles and aryl halides under mild conditions. These reactions are catalyzed by an inexpensive, air-stable, earth-abundant and easy-to-prepare singlet di-radical nickel(II)-catalyst containing two antiferromagnetically coupled single-electron oxidized diiminosemiquinonato type ligands. This protocol provides an alternative method for C?N cross-coupling reactions avoiding nickel(0)/nickel(II) or nickel(I)/nickel(III) redox processes via cooperative participation of metal and ligand-centered redox events. Besides a wide range of N-arylation reactions, by judicious choice of aryl halides and nitrogen nucleophiles the synthesis of a variety of polysubstituted quinazolines has been achieved in moderate to good yields under relatively mild reaction conditions. Our catalyst has been found to be almost equally effective in quinazoline synthesis via C?N cross-coupling of (i) 2-bromobenzylamine with benzamide, and (ii) 2-bromobenzylbromide with amidine. Control experiments and DFT studies were performed to improve the understanding of the cooperative participation of ligand and metal (nickel)-centered redox events during oxidative addition/reductive elimination processes of the catalytic cycle and to shed light on the plausible mechanistic pathway of the C?N cross-coupling reactions. (Figure presented.).
A N - aryl pyrazole compounds and N - aryl imidazole compound of preparation method
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Paragraph 0057; 0058; 0059; 0060; 0061; 0062, (2017/10/05)
The invention discloses a preparation method of an N-arylpyrazole compound and an N-arylimidazole compound. The method comprises the following steps: reacting at 20-120 DEG C for 6-48 hours by taking aryl halide and pyrazole or imidazole as substrates and copper salt as a catalyst in an organic solvent in the presence of alkali and a nitrogenous ligand under nitrogen protection; and after the reaction is finished, separating and purifying a reaction liquid to obtain the N-arylpyrazole compound or the N-arylimidazole compound. A product prepared by utilizing the method disclosed by the invention can not only be directly used, but also be used for other reactions as a substrate and has the advantages of moderation in adopted reaction condition, simple operation step and post-processing process, high yield and suitability for large-scale production.