One–Pot Three–Component Synthesis of 2,4,5–Triaryl Imidazoles using Fe3O4@BisImid−CuBr Nanocomposite as an Ecofriendly and Efficient Magnetically Reusable Catalyst-Reference-Cited by-同舟云学术

One–Pot Three–Component Synthesis of 2,4,5–Triaryl Imidazoles using Fe3O4@BisImid−CuBr Nanocomposite as an Ecofriendly and Efficient Magnetically Reusable Catalyst

Published:2024-04-17 Issue:15 Volume:9 Page:
ISSN:2365-6549
Container-title:ChemistrySelect
language:en
Short-container-title:ChemistrySelect

Author:

Al‐Dolaimy F.¹,Alsalamy Ali H.²,Abdullah Abbas Hussein³,Rasen Fadhil A.⁴,Abdulhussein Zaid⁵,Ramadan Montather F.⁶,Abbas Ahmed Hussien R.⁷,Mustafa Hesham S.⁸^ORCID

Affiliation:

1. Al-Zahraa University for Women Karbala Iraq

2. College of Technical Engineering Imam Ja'afar Al-Sadiq University Al-Muthanna 66002 Iraq

3. College of Health and Medical Technology National University of Science and Technology Thi Qar 64001 Iraq

4. Department of Medical Engineering Al-Esraa University College Baghdad Iraq

5. Department of Dentistry Al-Hadi University College Baghdad 10011 Iraq

6. College of Dentistry Al-Ayen University Thi-Qar Iraq

7. College of Technical Engineering the Islamic University Najaf Iraq

8. Institute of Chemical and Medical Nanotechnology Baghdad Iraq

Abstract

AbstractImidazoles are one of the keys of N‐heterocycle molecules that exist in the structure of many biomolecules. In this research project, we reported that Fe3O4@BisImid−CuBr nanocomposite is an attractive and efficient nanomagnetic catalyst to afford 2,4,5–triaryl imidazoles through reactions of 1,2–diketones and aldehydes in the presence of NH4OAc under ecofriendly conditions. The Fe3O4@BisImid−CuBr nanocomposite was readily fabricated by a simple method from available reagents and its structure was analyzed by spectroscopic techniques. SEM and TEM images affirmed the formation of particles in spherical shape and nanometer–size. Under this methodology, a diverse library of triaryl imidazoles were afforded with high yields in water. This synthetic methodology has significant features such as (a) high yields and high purity of the products (b) suitable reaction time (c) use of magnetic reusable nanocatalyst (d) high reusability of Fe3O4@BisImid−CuBr nanocatalyst and the performance of reactions in aqueous medium.

Publisher

Wiley

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