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Journal of Taibah University for Science Volume 8, 2014 - Issue 4
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Original Article

Applications of microwave technology to rapid synthesis of substituted imidazoles on silica-supported SbCl3 as an efficient heterogeneous catalystFootnote

Javad SafariLaboratory of Organic Compound Research, Department of Organic Chemistry, College of Chemistry, University of Kashan, PO Box: 87317-51167Kashan, Islamic Republic of IranCorrespondence[email protected]
,
Simin NasehLaboratory of Organic Compound Research, Department of Organic Chemistry, College of Chemistry, University of Kashan, PO Box: 87317-51167Kashan, Islamic Republic of Iran
,
Zohre ZarnegarLaboratory of Organic Compound Research, Department of Organic Chemistry, College of Chemistry, University of Kashan, PO Box: 87317-51167Kashan, Islamic Republic of Iran
&
Zahra AkbariLaboratory of Organic Compound Research, Department of Organic Chemistry, College of Chemistry, University of Kashan, PO Box: 87317-51167Kashan, Islamic Republic of Iran
Pages 323-330 | Published online: 16 Apr 2018

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Shailesh S. Gurav, Seema R. Jadhav, Santosh V. Raskar, Santoshkumar M. Potdar & Krishnakant T. Waghmode. (2024) 1,2-Diaryl-4,5-diphenyl-1H-imidazoles: Further Preparative Studies Using Amberlite IR120(H) as a Recyclable Heterogeneous Catalyst. Organic Preparations and Procedures International 56:2, pages 196-204.
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Shailesh S. Gurav, Seema R. Jadhav, Suraj N. Mali, Onkar A. Lotlikar & Krishnakant T. Waghmode. (2023) An efficient one-pot multicomponent, Amberlite IR120(H) catalyzed microwave-assisted synthesis of 1,2,4,5-tetrasubstituted-1H-imidazoles: Plausible mechanism and antibacterial evaluation. Synthetic Communications 53:23, pages 2029-2040.
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Niloufar Nasehi, Behrooz Mirza & Somayeh Soleimani-Amiri. (2023) Experimental and Theoretical Investigation on Imidazole Derivatives Using Magnetic Nanocatalyst: Green Synthesis, Characterization, and Mechanism Study. Polycyclic Aromatic Compounds 43:9, pages 7890-7911.
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Shushay Hagos Gebre. (2021) Recent developments in the fabrication of magnetic nanoparticles for the synthesis of trisubstituted pyridines and imidazoles: A green approach. Synthetic Communications 51:11, pages 1669-1699.
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Amol U. Khandebharad, Swapnil R. Sarda, Charansingh Gill & Brijmohan R. Agrawal. (2020) An Efficient Synthesis of Substituted Imidazoles Catalyzed by 3-N-Morpholinopropanesulfonic Acid (MOPS) under Ultrasound Irradiation. Organic Preparations and Procedures International 52:6, pages 524-529.
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Feifei Zhang, Qi Gao, Bang Chen, Yinjuan Bai, Wei Sun, Dongxu Lv & Man Ge. (2016) A practical and green approach towards synthesis of multisubstituted imidazoles using boric acid as efficient catalyst. Phosphorus, Sulfur, and Silicon and the Related Elements 191:5, pages 786-789.
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Kobra Nikoofar, Maryam Haghighi, Maryam Lashanizadegan & Zeinab Ahmadvand. (2015) ZnO nanorods: Efficient and reusable catalysts for the synthesis of substituted imidazoles in water. Journal of Taibah University for Science 9:4, pages 570-578.
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Kanyanjali Samal, Manas Ranjan Swain & Anita Pati. (2023) GO‐TiO 2 Nanocomposite: An Efficient Catalyst for the Conventional and Ultrasonically Mediated Multicomponent Synthesis of 2, 4, 5‐Trisubstituted Imidazole Derivatives** . ChemistrySelect 8:34.
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Tran Trung Hieu, Vo Cong Dung, Nguyen Thi Chung & Dau Xuan Duc. (2023) Recent Achievement in the Synthesis of Imidazoles. Current Organic Chemistry 27:16, pages 1398-1446.
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Prashant Tripathi & Arti Malviya. (2023) Imidazole Scaffold: A Review of Synthetic Strategies and Therapeutic Action. Biomedical and Pharmacology Journal 16:2, pages 1159-1168.
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Monika Kamboj, Sangeeta Bajpai, Monika Yadav & Surabhi Singh. (2023) Microwave Radiations: A Green Approach to the Synthesis of Five- Membered Heterocyclic Compounds. Current Green Chemistry 10:1, pages 57-72.
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Abul Kalam Azad, Tanima Bhattacharya, Md Saquib Hasnain, Garima Tripathi & Amit Kumar Nayak. 2023. Polymeric Nanosystems. Polymeric Nanosystems 173 205 .
J. Tarique, S. M. Sapuan, N. F. Aqil, A. Farhan, J. I. Faiz & S. Shahrizan. 2023. Composites from the Aquatic Environment. Composites from the Aquatic Environment 15 66 .
Mengyuan Guo, Xunfan Wei, Sicong Chen, Jinhua Xiao & Dawei Huang. (2022) Enhancing nonspecific enzymatic hydrolysis of chitin to oligosaccharides pretreated by acid and green solvents under simultaneous microwave-radiation. International Journal of Biological Macromolecules 209, pages 631-641.
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Fatima El hajri, Zakaria Benzekri, Haddou Anahmadi, Sarra Sibous, Ali Ouasri, Abdelaziz Souizi, Amina Hassikou, Ali Rhandour & Said Boukhris. (2022) Investigation of catalytic performance of Bis [hydrazinium (1+)] hexafluoridosilicate: (N2H5)2SiF6 in synthesis of 2,4,5-triaryl-1H-imidazoles and 2,3-dihydroquinazolin-4 (1H)-ones under Green conditions. Inorganica Chimica Acta 536, pages 120915.
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Laura Antonella Aronica & Gianluigi Albano. (2022) Supported Metal Catalysts for the Synthesis of N-Heterocycles. Catalysts 12:1, pages 68.
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Trimurti L. Lambat, Paavan Kavi Param Gaitry Chopra & Sami H. Mahmood. (2020) Microwave: A Green Contrivance for the Synthesis of N-Heterocyclic Compounds. Current Organic Chemistry 24:22, pages 2527-2554.
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Foozhan Arpanahi & Bijan Mombeni Goodajdar. (2020) Iron–Phosphonate Nanomaterial: As a Novel and Efficient Organic–Inorganic Hybrid Catalyst for Solvent-Free Synthesis of Tri-Substituted Imidazole Derivatives. Journal of Inorganic and Organometallic Polymers and Materials 30:7, pages 2572-2581.
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Sandeep V.H.S. Bhaskaruni, Suresh Maddila, Kranthi Kumar Gangu & Sreekantha B. Jonnalagadda. (2020) A review on multi-component green synthesis of N-containing heterocycles using mixed oxides as heterogeneous catalysts. Arabian Journal of Chemistry 13:1, pages 1142-1178.
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Somashekara Bhadrachar, Giriyapura R. Vijayakumar, Kittappa M. Mahadevan & Thippeswamy Basavaraja. (2019) Synthesis, Molecular Docking and Radical Scavenging Activity of 1,2,4,5-Tetrasubstituted Imidazole Derivatives. Asian Journal of Chemistry 31:11, pages 2448-2452.
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Jayant Sonar, Sandeep Pardeshi, Shrikant Dokhe, Rajendra Pawar, Kiran Kharat, Ashok Zine, Babasaheb Matsagar, Kevin Wu & Shivaji Thore. (2019) An efficient method for the synthesis of 2,4,5-trisubstituted imidazoles using lactic acid as promoter. SN Applied Sciences 1:9.
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Renzo Rossi, Gaetano Angelici, Gianluca Casotti, Chiara Manzini & Marco Lessi. (2019) Catalytic Synthesis of 1,2,4,5‐Tetrasubstituted 1 H ‐Imidazole Derivatives: State of the Art . Advanced Synthesis & Catalysis 361:12, pages 2737-2803.
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D. ParthibanR. Joel Karunakaran. (2018) Benzethonium Chloride Catalyzed one Pot Synthesis of 2,4,5-Trisubstituted Imidazoles and 1,2,4,5-Tetrasubstituted Imidazoles in Aqueous Ethanol As A Green Solvent. Oriental Journal of Chemistry 34:6, pages 3004-3015.
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H. D. Hanoon, E. Kowsari, M. Abdouss, M. H. Ghasemi & H. Zandi. (2017) Highly efficient and simple protocol for synthesis of 2,4,5-triarylimidazole derivatives from benzil using fluorinated graphene oxide as effective and reusable catalyst. Research on Chemical Intermediates 43:7, pages 4023-4041.
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Ali Maleki & Reza Paydar. (2015) Graphene oxide–chitosan bionanocomposite: a highly efficient nanocatalyst for the one-pot three-component synthesis of trisubstituted imidazoles under solvent-free conditions. RSC Advances 5:42, pages 33177-33184.
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Gurpreet Kour, Monika Gupta, B. Vishwanathan & K. Thirunavukkarasu. (2015) Iron nanotube-silica composite (ZVI-S-PCAT modified silica composite) preparation, characterization and application as a recyclable catalytic system for 5-membered ring organic transformations. Dalton Transactions 44:33, pages 14975-14990.
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Mudumala Veeranarayana Reddy, Gangireddy Chandra Sekhar Reddy & Yeon Tae Jeong. (2014) A highly efficient and recyclable molybdate sulfuric acid (MSA) catalyst for the synthesis of dimethyl (2,3-dihydro-1H-inden-6-ylamino) (substituted) methylphosphonates under microwave irradiation. RSC Adv. 4:46, pages 24089-24094.
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