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Green Chemistry Letters and Reviews Volume 3, 2010 - Issue 2
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RESEARCH LETTERS

A convenient synthesis of 2,4,5-triarylimidazoles catalyzed by Y(TFA)3

Runxia Wang Department of Chemistry, School of Chemistry and Materials Science, Liaoning Shihua University, Fushun, Liaoning, 113001, P.R. China
,
Chunsheng Liu Department of Chemistry, School of Chemistry and Materials Science, Liaoning Shihua University, Fushun, Liaoning, 113001, P.R. China
&
Genxiang Luo Department of Chemistry, School of Chemistry and Materials Science, Liaoning Shihua University, Fushun, Liaoning, 113001, P.R. ChinaCorrespondence[email protected]
Pages 101-104 | Received 22 May 2009, Published online: 30 Jul 2010

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Shailesh S. Gurav, Krishnakant T. Waghmode, Onkar A. Lotlikar, Shweta N. Dandekar & Seema R. Jadhav. (2022) An Efficient One-Pot Synthesis of 2-Aryl-4,5-diphenyl-1H-imidazoles with Amberlite IR-120(H) as a Reusable Heterogeneous Catalyst. Organic Preparations and Procedures International 54:6, pages 556-562.
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Articles from other publishers (10)

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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Sailesh Chettri, Sumiran Tamang, Kiran Pradhan, Biswajit Sinha & Dhiraj Brahman. (2023) Copper borate (CuB 4 O 7 )-promoted multi-component green synthesis of 2,4,5-triarylimidazole derivatives and evidence of in situ conversion of copper borate (CuB 4 O 7 ) into Cu(OAc) 2 in the presence of NH 4 OAc . RSC Advances 13:29, pages 19846-19855.
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Dnyaneshwar Purushottam Gholap, Ramdas Huse, Sudarshan Dipake & Machhindra K. Lande. (2023) Silica supported lanthanum trifluoroacetate and trichloroacetate as an efficient and reusable water compatible Lewis acid catalyst for synthesis of 2,4,5-triarylimidazoles via a solvent-free green approach . RSC Advances 13:3, pages 2090-2103.
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Mansouria Bouchakour, Mortada Daaou & Nicolas Duguet. (2021) Synthesis of Imidazoles from Fatty 1,2‐Diketones. European Journal of Organic Chemistry 2021:11, pages 1647-1652.
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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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Sharoni Gupta, Rukhsar Banu, Chetna Ameta, Rakshit Ameta & Pinki Bala Punjabi. (2019) Emerging Trends in the Syntheses of Heterocycles Using Graphene-based Carbocatalysts: An Update. Topics in Current Chemistry 377:3.
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Narasashetty Jagadishbabu & Kalegowda Shivashankar. (2017) One-Pot Synthesis of 2,4,5-Triphenyl Imidazoles from 1,2-Diols as Key Reagents. Journal of the Chinese Chemical Society 64:5, pages 474-480.
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Yang Chen, Ren Wang, Feifei Ba, Junli Hou, Aishun Ding, Mingdong Zhou & Hao Guo. (2017) Synthesis of 2,4,5-triarylated imidazoles via three-component domino reaction under catalyst-free conditions. Journal of Saudi Chemical Society 21:1, pages 76-81.
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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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Eman A. El Rady. (2014) Three-Component Uncatalyzed Eco-Friendly Reactions for One-Pot Synthesis of 4,7-Dihydro[1,2,4]triazolo[1,5- a ]pyrimidine Derivatives . Journal of Heterocyclic Chemistry 51:3, pages 869-875.
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