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Synthetic Communications
An International Journal for Rapid Communication of Synthetic Organic Chemistry
Volume 38, 2008 - Issue 17
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Original Articles

Efficient Synthesis of bis- and tris-Indolylalkanes Catalyzed by a Brønsted Acid–Surfactant Catalyst in Water

Parasa Hazarika Synthetic Organic Chemistry Division, Northeast Institute of Science and Technology (formerly RRL), Jorhat, Assam, India
,
Saikat Das Sharma Synthetic Organic Chemistry Division, Northeast Institute of Science and Technology (formerly RRL), Jorhat, Assam, India
&
Dilip Konwar Synthetic Organic Chemistry Division, Northeast Institute of Science and Technology (formerly RRL), Jorhat, Assam, IndiaCorrespondence[email protected]
Pages 2870-2880 | Received 24 Dec 2007, Published online: 28 Aug 2008

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Bahareh Sadeghi, Fereshteh Amiri Tavasoli & Alireza Hassanabadi. (2015) Ag Nanoparticles: An Efficient and Versatile Reagent for Synthesis of Bis(indolyl)methanes. Synthesis and Reactivity in Inorganic, Metal-Organic, and Nano-Metal Chemistry 45:9, pages 1396-1400.
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Jiangxia Yu, Tianhua Shen, Yan Lin, Yongbing Zhou & Qingbao Song. (2014) Rapid and Efficient Synthesis of 3,3-Di(1H-indol-3-yl)indolin-2-ones and 2,2-Di(1H-indol-3-yl)-2H-acenaphthen-1-ones Catalyzed by p-TSA. Synthetic Communications 44:14, pages 2029-2036.
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Articles from other publishers (27)

Rajeshwari Athavale, Sailee Gardi, Fatima Choudhary, Dayanand Patil, Nandkishor Chandan & Paresh More. (2024) Novel acidic ionic liquid [BEMIM][HSO4]: A highly efficient and recyclable catalyst for the synthesis of bis-indolyl methane derivatives. Applied Catalysis A: General 669, pages 119505.
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Pooja Kumari Jat, Kamlesh Kumar Dabaria, Rekha Bai, Lalit Yadav & Satpal Singh Badsara. (2022) Electrochemical Bisarylation of Carbonyls: A Direct Synthetic Strategy for Bis(indolyl)methane. The Journal of Organic Chemistry 87:19, pages 12975-12985.
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Priti Singh, Abhishek Choli, Baijayantimala Swain, Andrea Angeli, Santosh K. Sahoo, Venkata M. Yaddanapudi, Claudiu T. Supuran & Mohammed Arifuddin. (2021) Design and development of novel series of indole‐3‐sulfonamide ureido derivatives as selective carbonic anhydrase II inhibitors. Archiv der Pharmazie 355:1.
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Deeptanu Sarkar, Andleeb Amin, Tanzeela Qadir & Praveen K. Sharma. (2021) Synthesis of Medicinally Important Indole Derivatives: A Review. The Open Medicinal Chemistry Journal 15:1, pages 1-16.
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First Ambar Wati, Mardi Santoso, Ziad Moussa, Sri Fatmawati, Arif Fadlan & Zaher M. A. Judeh. (2021) Chemistry of trisindolines: natural occurrence, synthesis and bioactivity. RSC Advances 11:41, pages 25381-25421.
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Rupesh C. Patil, Shashikant A. Damate, Dnyandev N. Zambare & Suresh S. Patil. (2021) Chickpea leaf exudates: a green Brønsted acid type biosurfactant for bis(indole)methane and bis(pyrazolyl)methane synthesis. New Journal of Chemistry 45:20, pages 9152-9162.
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Maxime De Abreu, Yue Tang, Etienne Brachet, Mohamed Selkti, Véronique Michelet & Philippe Belmont. (2021) Silver-catalyzed tandem cycloisomerization/hydroarylation reactions and mechanistic investigations for an efficient access to 1,2-dihydroisoquinolines. Organic & Biomolecular Chemistry 19:5, pages 1037-1046.
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Md Sajjadur Rahman, Ranen Roy, Balawanthrao Jadhav, Md Nayeem Hossain, Mohammad A. Halim & Douglas E. Raynie. (2021) Formulation, structure, and applications of therapeutic and amino acid-based deep eutectic solvents: An overview. Journal of Molecular Liquids 321, pages 114745.
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Islavathu Hatti & Venkata Naga Baji Tokala. (2020) Synthesis, anti-cancer evaluation and molecular docking studies of aryl bisindole derivatives. Chemical Data Collections 29, pages 100511.
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T. R. Bhosale, D. R. Chandam, P. V. Anbhule & M. B. Deshmukh. (2018) Synthesis of Novel 4‐((Substituted bis‐indolyl)methyl)‐benzo‐15‐crown‐5 for the Colorimetric Detection of Hg 2+ Ions in an Aqueous Medium . Journal of Heterocyclic Chemistry 56:2, pages 477-484.
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Phuong Hoang Tran, Xuan‐Trang Thi Nguyen & Duy‐Khiem Nguyen Chau. (2017) A Brønsted‐Acidic Ionic Liquid Gel as an Efficient and Recyclable Heterogeneous Catalyst for the Synthesis of Bis(indolyl)methanes under Solvent‐Free Sonication. Asian Journal of Organic Chemistry 7:1, pages 232-239.
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Kobra Nikoofar & Khadijeh Ghanbari. (2015) A domino electro-oxidative synthesis of 3,3′-bis(indolyl)methane nanoparticles. Monatshefte für Chemie - Chemical Monthly 146:12, pages 2021-2027.
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Dattatray Chandam, Abhijeet Mulik, Prasad Patil, Suryabala Jagdale, Dayanand Patil, Sandeep Sankpal & Madhukar Deshmukh. (2015) Oxalic acid dihydrate: Proline (LTTM) as a new generation solvent for synthesis of 3,3-diaryloxindole and chromone based bis(indolyl)alkanes: Green, chromatography free protocol. Journal of Molecular Liquids 207, pages 14-20.
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Carla Grosso, Ana Lúcia Cardoso, Américo Lemos, João Varela, Maria João Rodrigues, Luísa Custódio, Luísa Barreira & Teresa M.V.D. Pinho e Melo. (2015) Novel approach to bis(indolyl)methanes: De novo synthesis of 1-hydroxyiminomethyl derivatives with anti-cancer properties. European Journal of Medicinal Chemistry 93, pages 9-15.
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Neeraj Gupta & Deepti Goyal. (2015) Synthesis of indole and its derivatives in water. Chemistry of Heterocyclic Compounds 51:1, pages 4-16.
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Liang-Yong Mei, Xiang-Ying Tang & Min Shi. (2014) Rhodium-catalyzed three-component reaction of 3-diazooxindoles with indoles and isatin-derived ketimines: a facile and versatile approach to functionalized 3,3′,3′′-trisindoles. Org. Biomol. Chem. 12:7, pages 1149-1156.
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Janardhan Banothu, Rajitha Gali, Ravibabu Velpula, Rajitha Bavantula & Peter A. Crooks. (2013) An Eco-Friendly Improved Protocol for the Synthesis of Bis(3-indolyl)methanes Using Poly(4-vinylpyridinium)hydrogen Sulfate as Efficient, Heterogeneous, and Recyclable Solid Acid Catalyst. ISRN Organic Chemistry 2013, pages 1-5.
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Takumi Abe, Shuuhei Nakamura, Reiko Yanada, Tominari Choshi, Satoshi Hibino & Minoru Ishikura. (2013) One-Pot Construction of 3,3′-Bisindolylmethanes through Bartoli Indole Synthesis. Organic Letters 15:14, pages 3622-3625.
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Sara Sobhani & Roya Jahanshahi. (2013) Nano n-propylsulfonated γ-Fe2O3 (NPS-γ-Fe2O3) as a magnetically recyclable heterogeneous catalyst for the efficient synthesis of 2-indolyl-1-nitroalkanes and bis(indolyl)methanes. New Journal of Chemistry 37:4, pages 1009.
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Samuel R. Mendes, Samuel Thurow, Margiani P. Fortes, Filipe Penteado, Eder J. Lenardão, Diego Alves, Gelson Perin & Raquel G. Jacob. (2012) Synthesis of bis(indolyl)methanes using silica gel as an efficient and recyclable surface. Tetrahedron Letters 53:40, pages 5402-5406.
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Parasa Hazarika, Pallab Pahari, Manash Jyoti Borah & Dilip Konwar. (2012) -SDS- System: A highly Efficient Dual Catalytic Green System for Deprotection of Imines and in Situ Preparation of Bis(indolyl)alkanes from Indoles in Water . ISRN Organic Chemistry 2012, pages 1-6.
Crossref
Ajam C. Shaikh & Chinpiao Chen. (2011) An Easy and Efficient Synthesis of Bisindolylmethanes and Tetraindolylmethane Tröger's Base Catatlyzed by AgBF 4 . Journal of the Chinese Chemical Society 58:7, pages 899-905.
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Narges Karimi, Hooesin Oskooi, Majid Heravi, Mina Saeedi, Masoumeh Zakeri & Niloofar Tavakoli. (2011) On Water: Br?nsted Acidic Ionic Liquid [(CH 2 ) 4 SO 3 HMIM][HSO 4 ] Catalysed Synthesis of Oxindoles Derivatives . Chinese Journal of Chemistry 29:2, pages 321-323.
Crossref
Morteza Shiri, Mohammad Ali Zolfigol, Hendrik Gerhardus Kruger & Zahra Tanbakouchian. (2009) Bis- and Trisindolylmethanes (BIMs and TIMs). Chemical Reviews 110:4, pages 2250-2293.
Crossref
Richard J. Sundberg. 2010. Heterocyclic Scaffolds II:. Heterocyclic Scaffolds II: 47 115 .
Claudio C. Silveira, Samuel R. Mendes, Francieli M. Líbero, Eder J. Lenardão & Gelson Perin. (2009) Glycerin and CeCl3·7H2O: a new and efficient recyclable medium for the synthesis of bis(indolyl)methanes. Tetrahedron Letters 50:44, pages 6060-6063.
Crossref
Parasa Hazarika, Saikat Das Sharma & Dilip Konwar. (2009) ChemInform Abstract: Efficient Synthesis of Bis‐ and Tris‐Indolylalkanes Catalyzed by a Broensted Acid—Surfactant Catalyst in Water.. ChemInform 40:6.
Crossref

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