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Synthetic Communications
An International Journal for Rapid Communication of Synthetic Organic Chemistry
Volume 21, 1991 - Issue 10-11
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Original Articles

Knoevenagel Condensation Catalysed by New Montmorillonitesilylpropylethylenediamine

Y. V. Subba Rao Inorganic & Physical Chemistry Division, Indian Institute of Chemical Technology, Hyderabad, 500 007, India
&
B. M. Choudary Inorganic & Physical Chemistry Division, Indian Institute of Chemical Technology, Hyderabad, 500 007, India
Pages 1163-1166 | Received 27 Feb 1991, Published online: 16 Feb 2007

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G. Srihari & M. Marthanda Murthy. (2011) Kaolin/KOH Is an Efficient Heterogeneous Catalyst for the Synthesis of 3-Hydroxy-3-indolyl Oxindoles. Synthetic Communications 41:18, pages 2684-2692.
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Fuyi Zhang, Yu-Xin Wang, Feng-Ling Yang, Hong-Yu Zhang & Yu-Fen Zhao. (2011) Efficient Solvent-Free Knoevenagel Condensation Between β-Diketone and Aldehyde Catalyzed by Silica Sulfuric Acid. Synthetic Communications 41:3, pages 347-356.
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Hassan Valizadeh & Hamid Gholipour. (2010) Imidazolium-Based Phosphinite Ionic Liquid (IL-OPPh2) as Reusable Catalyst and Solvent for the Knoevenagel Condensation Reaction. Synthetic Communications 40:10, pages 1477-1485.
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Massimo Curini, Francesco Epifano, Maria Carla Marcotullio, Ornelio Rosati & Andrè Tsadjout. (2002) POTASSIUM EXCHANGED LAYERED ZIRCONIUM PHOSPHATE AS BASE CATALYST IN KNOEVENAGEL CONDENSATION. Synthetic Communications 32:3, pages 355-362.
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Saeed Balalaie & Navid Nemati. (2000) Ammonium Acetate-Basic Alumina Catalyzed Knoevenagel Condensation Under Microwave Irradiation Under Solvent-Free Condition. Synthetic Communications 30:5, pages 869-875.
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Francisco Delgado, Joaquin Tamariz, Gerard Zepeda, Miguel Landa, René Miranda & José García. (1995) Knoevenagel Condensation Catalyzed by a Mexican Bentonite Using Infrared Irradiation. Synthetic Communications 25:5, pages 753-759.
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Articles from other publishers (23)

Manef Chtourou. (2024) Base–modified Tunisian Smectite: Efficient Catalysts for Ultrasound- Assisted Knoevenagel Condensation under Mild Reaction Conditions. Letters in Organic Chemistry 21:1, pages 66-76.
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Pannala Padmaja, B.V. Subba Reddy, Vinod G. Ugale & Pedavenkatagari Narayana Reddy. (2022) Arylidenemalononitriles as Versatile Synthons in Heterocyclic Synthesis. Current Organic Synthesis 19:5, pages 591-615.
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Manef Chtourou, Achraf Lahyani & Mahmoud Trabelsi. (2018) Alkaline–modified montmorillonite K10: an efficient catalyst for green condensation reaction of aromatic aldehydes with active methylene compounds. Reaction Kinetics, Mechanisms and Catalysis 126:1, pages 237-247.
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Hui Zhang, Linfeng Xiong, Zidong He, Aiqing Zhong, Tianqi Wang, Yang Xu, Minghong Zhou & Kun Huang. (2016) Functionalized microporous organic nanotube networks as a new platform for highly efficient heterogeneous catalysis. Polymer Chemistry 7:30, pages 4975-4982.
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Satoshi Inagaki, Karine Thomas, Valérie Ruaux, Guillaume Clet, Toru Wakihara, Shoma Shinoda, Sae Okamura, Yoshihiro Kubota & Valentin Valtchev. (2014) Crystal Growth Kinetics as a Tool for Controlling the Catalytic Performance of a FAU-Type Basic Catalyst. ACS Catalysis 4:7, pages 2333-2341.
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T. Asefa, A. V. Biradar, S. Das & R. Silva. 2013. Nanocatalysis Synthesis and Applications. Nanocatalysis Synthesis and Applications 221 249 .
Antonio Pineda, Alina Mariana Balu, Juan Manuel Campelo, Antonio Angel Romero & Rafael Luque. (2013) Activity of amino-functionalised mesoporous solid bases in microwave-assisted condensation reactions. Catalysis Communications 33, pages 1-6.
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R.W. Mccabe & J.M. Adams. 2013. Handbook of Clay Science. Handbook of Clay Science 491 538 .
Alireza Abbaspourrad, Roozbeh Javad Kalbasi & Farzad Zamani. (2010) Highly Selective Aldol Condensation Using Amine‐functionalized SiO 2 ‐Al 2 O 3 Mixed‐oxide under Solvent‐free Condition . Chinese Journal of Chemistry 28:10, pages 2074-2082.
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Mahendra P. Kapoor, Hiroya Kuroda, Masaaki Yanagi, Hironobu Nanbu & Lekh R. Juneja. (2009) Catalysis by Mesoporous Dendrimers. Topics in Catalysis 52:6-7, pages 634-642.
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V.S.R. Rajasekhar Pullabhotla, Ateeq Rahman & S.B. Jonnalagadda. (2009) Selective catalytic Knoevenagel condensation by Ni–SiO2 supported heterogeneous catalysts: An environmentally benign approach. Catalysis Communications 10:4, pages 365-369.
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C. Paun, J. Barklie, P. Goodrich, H.Q.N. Gunaratne, A. McKeown, V.I. Pârvulescu & C. Hardacre. (2007) Supported and liquid phase task specific ionic liquids for base catalysed Knoevenagel reactions. Journal of Molecular Catalysis A: Chemical 269:1-2, pages 64-71.
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Tsunetake Seki & Makoto Onaka. (2007) Elucidation of basic properties of mesoporous alumina through the temperature-programmed desorption of carbon dioxide and heterogeneous basic catalysis of mesoporous alumina for the Knoevenagel reaction in supercritical CO2. Journal of Molecular Catalysis A: Chemical 263:1-2, pages 115-120.
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Tsunetake Seki & Makoto Onaka. (2006) Heterogeneous strong base catalysis in supercritical carbon dioxide by mesoporous alumina and sulfated mesoporous alumina. Catalysis Surveys from Asia 10:3-4, pages 138-150.
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M. Lakshmi Kantam, A. Ravindra, Ch. Venkat Reddy, B. Sreedhar & B. M. Choudary. (2006) Layered Double Hydroxides‐Supported Diisopropylamide: Synthesis, Characterization and Application in Organic Reactions. Advanced Synthesis & Catalysis 348:4-5, pages 569-578.
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J.M. Adams & R.W. McCabe. 2006. Handbook of Clay Science. Handbook of Clay Science 541 581 .
Umberto Costantino, Massimo Curini, Francesca Montanari, Morena Nocchetti & Ornelio Rosati. (2003) Hydrotalcite-like compounds as catalysts in liquid phase organic synthesis. Journal of Molecular Catalysis A: Chemical 195:1-2, pages 245-252.
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Rajender S. Varma. (2002) Clay and clay-supported reagents in organic synthesis. Tetrahedron 58:7, pages 1235-1255.
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Bernd Siebenhaar, Bruno Casagrande, Martin Studer & Hans-Ulrich Blaser. (2001) An easy-to-use heterogeneous catalyst for the Knoevenagel condensation. Canadian Journal of Chemistry 79:5-6, pages 566-569.
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P Kannan, H Shayira Banu & K Pitchumani. (1999) Syntheses of organic benzyl sulphides from thiols using a modified clay catalyst. Proceedings / Indian Academy of Sciences 111:4, pages 555-561.
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B.M. Choudary, M.Lakshmi Kantam, P. Sreekanth, T. Bandopadhyay, F. Figueras & A. Tuel. (1999) Knoevenagel and aldol condensations catalysed by a new diamino-functionalised mesoporous material. Journal of Molecular Catalysis A: Chemical 142:3, pages 361-365.
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A. Corma, S. Iborra, J. Primo & F. Rey. (1994) One-step synthesis of citronitril on hydrotalcite derived base catalysts. Applied Catalysis A: General 114:2, pages 215-225.
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Y. V. S. RAO & B. M. CHOUDARY. (2010) ChemInform Abstract: Knoevenagel Condensation Catalyzed by New Montmorillonite‐ Silylpropylenediamine.. ChemInform 23:3.
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