Copper-based nanocatalysts produced via laser-induced ex situ generation for homo- and cross-coupling reactions

[Display omitted] •We proposed laser-induced synthesis of Raney-like copper-based nanocatalysts.•Their catalytic activity towards homo- and cross-coupling reactions was studied.•Growth of such copper-based particles can be controlled by adding phenanthroline.•It is possible to manage the course of t...

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Bibliographic Details
Published in:Chemical engineering science 2020-12, Vol.227, p.115940, Article 115940
Main Authors: Gordeychuk, Dmitry I., Sorokoumov, Viktor N., Mikhaylov, Vladimir N., Panov, Maxim S., Khairullina, Evgeniia M., Melnik, Maria V., Kochemirovsky, Vladimir A., Balova, Irina A.
Format: Article
Language:English
Subjects:
Azide-alkyne cycloaddition
Catalysis
Copper-based nanocatalysts
Homo-coupling
Laser-induced metal synthesis
Sonogashira cross-coupling
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Summary:[Display omitted] •We proposed laser-induced synthesis of Raney-like copper-based nanocatalysts.•Their catalytic activity towards homo- and cross-coupling reactions was studied.•Growth of such copper-based particles can be controlled by adding phenanthroline.•It is possible to manage the course of the catalytic reaction by changing their size. In this work, we propose the promising approach that provides conditions for laser-induced ex situ synthesis of Raney-like copper-based nanostructured catalysts. Their catalytic activity and selectivity were investigated in Cu-catalyzed acetylene homo-coupling, Pd/Cu-catalyzed the Sonogashira cross-coupling and Cu-catalyzed azide-alkyne cycloaddition (CAAC). It was found that the growth of particles generated within the focus of the laser beam can last even if laser irradiation is off and can be controlled by adding phenanthroline to the reaction mixture as the stabilizing ligand or by increasing its temperature and concentration. Particle size of the synthesized copper-based catalysts significantly affects the reaction selectivity. Thus, it is possible to manage the course of the catalytic reaction towards formation of either homo-coupling or cross-coupling products by changing the size of the catalytically active copper-containing particles produced during laser-induced synthesis.
ISSN:0009-2509
1873-4405
DOI:10.1016/j.ces.2020.115940