Mild and Efficient Preparation of N-Heterocyclic Organic Molecules by Catalyst-free and Solvent-free Methods

Zhiqiang      Wu; Xuesong      Li; Yueyi      Li; Lin-an      Cao; Zhenliang      Li; Xuming      Wang; Wanyi      Liu; Enke      Feng

Note! Please note that this article is currently in the "Article in Press" stage and is not the final "Version of record". While it has been accepted, copy-edited, and formatted, however, it is still undergoing proofreading and corrections by the authors. Therefore, the text may still change before the final publication. Although "Articles in Press" may not have all bibliographic details available, the DOI and the year of online publication can still be used to cite them. The article title, DOI, publication year, and author(s) should all be included in the citation format. Once the final "Version of record" becomes available the "Article in Press" will be replaced by that.

Abstract

Aims: The small organic molecular compounds with biological activity containing C-C and C-N or C-O bonding were efficiently prepared without catalyst and solvent in the hydrothermal synthesis reactor.

Objectives: Our goal was to explore new applications for the more environmentally friendly and efficient synthesis of bis(indolyl)methyl, xanthene, quinazolinone, and N-heterocyclic derivatives in hydrothermal synthesis reactors under solvent-free and catalyst-free conditions.

Methods: A greener and more efficient method was successfully developed for the synthesis of bis(indolyl)methyl, heteroanthracene, quinazolinone, and N-heterocyclic derivatives using a hydrothermal synthesis reactor in a solvent- and catalyst-free manner.

Results: In a hydrothermal synthesis reactor, bis(indoyl)methyl, xanthene, quinazolinone, and N-heterocyclic derivatives were synthesized without catalysts and solvents.

Conclusion: Overall, it is proved once again that the catalyst-free and solvent-free synthesis method has universal value and is a more ideal and environmentally friendly new method, especially the hydrothermal reactor for synthesis.

Keywords: Catalyst-free, solvent-free, organic small molecules, synthetic preparation, N-heterocyclic derivatives.

Rights & Permissions Print Cite

Article Metrics

1

Journal Information

For Authors

For Editors

For Reviewers

Explore Articles

Open Access

Open Access Articles

For Visitors

DOI https://dx.doi.org/10.2174/0115701794285717240124053728	Print ISSN 1570-1794
Publisher Name Bentham Science Publisher	Online ISSN 1875-6271

Current Organic Synthesis

Mild and Efficient Preparation of N-Heterocyclic Organic Molecules by Catalyst-free and Solvent-free Methods

Abstract

Exploring the Role of Chemical Graph Theory in Advancing Current Organic Synthesis

Current Organic Synthesis

Mild and Efficient Preparation of N-Heterocyclic Organic Molecules by Catalyst-free and Solvent-free Methods

Abstract

Call for Papers in Thematic Issues

Exploring the Role of Chemical Graph Theory in Advancing Current Organic Synthesis

Related Journals

Related Books