Shape-controlled MoO3/MnO x nanocatalyst for the selective synthesis of 2-phenylquinoxaline drug motifs

TitleShape-controlled MoO3/MnO x nanocatalyst for the selective synthesis of 2-phenylquinoxaline drug motifs
Publication TypeJournal Article
Year of Publication2023
AuthorsSingh, N, Putla, SBabu, Singh, CPratap, Kalbande, PNarayan, Choudhary, P, Krishnamurty, S, Krishnan, V, Bhatte, K, Sudarsanam, P
JournalACS Applied Nano Materials
Volume6
Issue24
Pagination23442-23453
Date PublishedDEC
Type of ArticleArticle
Keywordscascade C-N cross-coupling, DFT studies, room temperature andopen air, shape-controlled MoO3/MnOx nanocatalyst, structure-activity correlation
Abstract

We have developed a highly effective shape-controlled MoO3/MnOx nanocatalyst for the selective synthesis of 2-phenylquinoxaline drug motifs at room temperature without any external oxidant. Electron microscopy images reveal that the MnOx material contains rod-shaped particles (length: 500-1000 nm and width: 150-200 nm) and the MoO3 species are uniformly dispersed in the MoO3/MnOx material. The MoO3/MnOx nanocatalyst calcined at 500 degrees C (MoO3/MnOx-5) contains abundant strong acid sites and an optimum ratio of Mn4+/Mn3+, which are responsible for the C-N cross-coupling reaction between 2-phenylethylamine and o-phenylenediamine, giving higher yields (>96%) of 2-phenylquinoxaline at mild conditions. The broad scope of this catalytic strategy at room temperature and without an external oxidant was confirmed by achieving >90% yields of functional 2-phenylquinoxalines from C-N cross-coupling of various o-phenylenediamines and 2-phenylethylamines. The outstanding reusability efficiency of the MoO3/MnOx-5 nanocatalyst up to five cycles without the need for a regeneration step as well as the effective scalability highlighted the practicability of the MoO3/MnOx-based catalytic protocol for carbon-heteroatom coupling reactions at room temperature and without an external oxidant. Using computational studies, the possible reasons for the selective synthesis of 2-phenylquinoxaline over the MoO3/MnOx-5 nanocatalyst were elucidated.

DOI10.1021/acsanm.3c04820
Type of Journal (Indian or Foreign)

Foreign

Impact Factor (IF)

5.9

Divison category: 
Physical and Materials Chemistry
Database: 
Web of Science (WoS)

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