Advanced search
Publication Cover
Synthetic Communications
An International Journal for Rapid Communication of Synthetic Organic Chemistry
Volume 35, 2005 - Issue 15
Submit an article Journal homepage
785
Views
92
CrossRef citations to date
0
Altmetric
Original Articles

CuBr2‐Catalyzed Synthesis of Bis(indolyl)methanes

Li‐Ping Mo College of Chemistry, Hebei Normal University, Shijiazhuang, China
,
Zi‐Chuan Ma College of Chemistry, Hebei Normal University, Shijiazhuang, China
&
Zhan‐Hui Zhang College of Chemistry, Hebei Normal University, Shijiazhuang, ChinaCorrespondence[email protected]
Pages 1997-2004 | Received 18 Mar 2005, Published online: 16 Aug 2006

Citations (92)

Keep up to date with the latest research on this topic with citation updates for this article.

Subscribe to citation updates

Read on this site (12)

Santosh R. Deshmukh, Archana S. Nalkar & Shankar R. Thopate. (2022) Ultrasound-Promoted Pyruvic Acid Catalyzed Green Synthesis of Biologically Relevant Bis(Indolyl)Methanes Scaffold under Aqueous Condition. Polycyclic Aromatic Compounds 42:9, pages 6501-6509.
Read now
Shashank N. Mhaldar, Ketan S. Mandrekar, Mukund K. Gawde, Rajdatt V. Shet & Santosh G. Tilve. (2019) Solventless Mechanosynthesis Of Bis(Indolyl)Methanes. Synthetic Communications 49:1, pages 94-101.
Read now
Karuppaiah Selvakumar, Thangamariyappan Shanmugaprabha, Ramamoorthy Annapoorani & Ponnusamy Sami. (2017) One-pot three-component synthesis of bis(indolyl)methanes under solvent-free condition using heteropoly-11-tungsto-1-vanadophosphoric acid supported on natural clay as catalyst. Synthetic Communications 47:9, pages 913-927.
Read now
Mohammad Nikpassand, Leila Zare Fekri & Mozhdeh Nabatzadeh. (2017) Efficient and green synthesis of novel derivatives of 3,3′-((aryl-1-phenyl-1H-pyrazol-4-yl)methylene)bis(1H-indole) under ultrasound irradiation. Synthetic Communications 47:1, pages 29-36.
Read now
Mohammad Nikpassand, Leila Zare Fekri & Mohammad Rezapour Mousavi. (2017) Synthesis of azo-linked diindolyl methanes using Fe3+-montmorillonite K10 under solvent-free condition. Journal of Taibah University for Science 11:1, pages 151-158.
Read now
Vasant Chabukswar, Amit Horne, Sanjay Bhavsar, Anil Bhise, Kakasaheb Mohite & Vishwas Gaikwad. (2012) Synthesis of Nano Conducting Poly(N-ethylaniline) and its Function as Reusable Catalyst for Bis-benzpyrrole Synthesis. Journal of Macromolecular Science, Part A 49:12, pages 1035-1040.
Read now
MajidM. Heravi, Fatemeh Nahavandi, Samaheh Sadjadi, HosienA. Oskooie & Mahmood Tajbakhsh. (2009) Convenient Synthesis of Bis(indol)alkanes by Niobium(V) Chloride. Synthetic Communications 39:18, pages 3285-3292.
Read now
Peng Zhang, Yong-Dong Yu & Zhan-Hui Zhang. (2008) 2,4,6-Trichloro-1,3,5-triazine as an Efficient Catalyst for Synthesis of Benzopyran Derivatives under Solvent-Free Conditions. Synthetic Communications 38:24, pages 4474-4479.
Read now
A. Srinivasa, BelakattaP. Nandeshwarappa, BalajiM. Kiran & KittappaM. Mahadevan. (2008) Antimony Trichloride Catalyzed Condensation of Indole and Carbonyl Compounds: Synthesis of Bis(indolyl)methanes. Phosphorus, Sulfur, and Silicon and the Related Elements 182:10, pages 2243-2249.
Read now
Jian-Jiong Li, Xu-Ye Tao & Zhan-Hui Zhang. (2008) An Effective Bismuth Trichloride-Catalyzed Synthesis of 1,8-Dioxo-Octahydroxanthenes. Phosphorus, Sulfur, and Silicon and the Related Elements 183:7, pages 1672-1678.
Read now
Zhan‐Hui Zhang & Jin Lin. (2007) Efficient and Convenient Method for the Synthesis of Symmetrical Triindolylmethanes Catalyzed by Iodine. Synthetic Communications 37:2, pages 209-215.
Read now
Zhan‐Hui Zhang, Shu‐Tao Yang & Jin Lin. (2006) Mild and Efficient Procedure for the Synthesis of 1,5‐Benzodiazepines Catalyzed by Magnesium Perchlorate. Synthetic Communications 36:12, pages 1645-1654.
Read now

Articles from other publishers (80)

Vikrant Kumbhar, Rutik Raskar, Radha Chafle, Vandana Nikam, Avinash Kumbhar, Ramdas Pawar, Manohar Chaskar, Gulab Gugale & Bhushan Khairnar. (2023) ProHSO4: An efficient catalyst for solvent-free synthesis of bis(indolyl)methanes and their in silico screening for potential biological activity. Results in Chemistry 6, pages 101023.
Crossref
Jingwen Yu, Luna Song, Yeshuang Wang, Haowen Li, Jiawen Liu, Mengmeng Wu, Yu Feng & Jie Mi. (2023) Three novel indole-bearing porous organic polymers for efficient iodine capture from both vapor and organic phases. New Journal of Chemistry.
Crossref
M. Rani, D. Utreja, N. K. Dhillon & K. Kaur. (2022) A Convenient One-Pot Synthesis of Bis(indolyl)methane Derivatives and Evaluation of Their Nematicidal Activity against the Root Knot Nematode Meloidogyne incognita. Russian Journal of Organic Chemistry 58:10, pages 1527-1533.
Crossref
Lifen Peng, Yanting Zhao, Tianbao Yang, Zhou Tong, Zilong Tang, Akihiro Orita & Renhua Qiu. (2022) Zirconium-Based Catalysts in Organic Synthesis. Topics in Current Chemistry 380:5.
Crossref
Ramon Arora, José F. Rodríguez, Andrew Whyte & Mark Lautens. (2021) Accessing Unsymmetrically Linked Heterocycles through Stereoselective Palladium‐Catalyzed Domino Cyclization. Angewandte Chemie International Edition 61:1.
Crossref
Ramon Arora, José F. Rodríguez, Andrew Whyte & Mark Lautens. (2021) Accessing Unsymmetrically Linked Heterocycles through Stereoselective Palladium‐Catalyzed Domino Cyclization. Angewandte Chemie 134:1.
Crossref
Barnali Deb, Sudhan Debnath, Ankita Chakraborty & Swapan Majumdar. (2021) Bis-indolylation of aldehydes and ketones using silica-supported FeCl 3 : molecular docking studies of bisindoles by targeting SARS-CoV-2 main protease binding sites . RSC Advances 11:49, pages 30827-30839.
Crossref
Estefania Reyes-Mercado, Juan Antonio Rivas-Loaiza, Juan Pablo García-Merinos, Yliana López & J. Betzabe González-Campos. (2021) Chitosan-supported copper salt and copper metal nanoparticles/copper (I) oxide microcrystals: Efficient and recyclable heterogeneous catalysts for the synthesis of bis(indolyl)methanes. Chemical Engineering and Processing - Process Intensification 159, pages 108201.
Crossref
Bijeta Mitra & Pranab Ghosh. (2021) Humic acid: A Biodegradable Organocatalyst for Solvent‐free Synthesis of Bis(indolyl)methanes, Bis(pyrazolyl)methanes, Bis‐coumarins and Bis‐lawsones. ChemistrySelect 6:1, pages 68-81.
Crossref
Monika Patil, Shrikrishna Karhale, Chandrakant Bhenki, Arjun Kumbhar & Vasant Helavi. (2020) Sulfonic acid@pericarp-pomegranate: A natural supported catalyst for synthesis of bis(indolyl)alkanes. Reaction Kinetics, Mechanisms and Catalysis 130:2, pages 993-1007.
Crossref
Gurpreet Kaur, Shivani Thakur, Priyanka Kaundal, Kusum Chandel & Bubun Banerjee. (2018) p ‐Dodecylbenzenesulfonic Acid: An Efficient Brønsted Acid‐Surfactant‐Combined Catalyst to Carry out Diverse Organic Transformations in Aqueous Medium . ChemistrySelect 3:45, pages 12918-12936.
Crossref
Dipankar Paul, Snehadrinarayan Khatua & Paresh N. Chatterjee. (2018) Iron-Catalyzed Tandem C-N and C-C bond Cleavage in Diaryl Methanamines: Use of Electron-Rich Arenes as Leaving Group to Generate Triaryl Methanes. ChemistrySelect 3:41, pages 11649-11656.
Crossref
Nader Ghaffari Khaligh, Taraneh Mihankhah, Mohd Rafie Johan & Juan Joon Ching. (2018) Two novel binuclear sulfonic-functionalized ionic liquids: Influence of anion and carbon-spacer on catalytic efficiency for one-pot synthesis of bis(indolyl)methanes. Journal of Molecular Liquids 259, pages 260-273.
Crossref
Tamer K. Khatab, A. M. Abdelghany & Hanan A. Soliman. (2017) V2 O 5/SiO2 as a Heterogeneous Catalyst in the Synthesis of bis(indolyl)methanes Under Solvent Free Condition. Silicon 10:3, pages 703-708.
Crossref
Shohreh Saiadian & Alireza Khorshidi. (2018) Comparison of the Catalytic Activity of Copper Nanostructures in Friedel-Crafts-Type Condensation Reactions. ChemistrySelect 3:1, pages 142-146.
Crossref
Ge Gao, Yi Han & Zhan-Hui Zhang. (2017) Catalyst Free Synthesis of Bis(Indolyl)Methanes and 3,3-Bis(Indolyl)oxindoles in Aqueous Ethyl Lactate. ChemistrySelect 2:35, pages 11561-11564.
Crossref
H. Kilic, S. Bayindir, E. Erdogan, S. Agopcan Cinar, F. A. S. Konuklar, S. K. Bali, N. Saracoglu & V. Aviyente. (2017) Bismuth nitrate-promoted disproportionative condensation of indoles with cyclohexanone: a new-type azafulvenium reactivity of indole. New Journal of Chemistry 41:18, pages 9674-9687.
Crossref
Ravi S. Balaskar, Bapurao B. Shingate, Murlidhar S. Shingare & Dhananjay V. Mane. (2016) Morpholinium bisulfate [morH][HSO4]: An efficient and reusable catalyst for the synthesis of bis(indolyl)methanes. Arabian Journal of Chemistry 9, pages S120-S123.
Crossref
Vitaly A. Shcherbinin, Pavel M. Shpuntov, Valery V. Konshin & Alexander V. Butin. (2016) CuBr2 catalyzed synthesis of 3-furylphthalides. Tetrahedron Letters 57:13, pages 1473-1475.
Crossref
Hanan A. Soliman, Ahmed Y. Mubarak & Saad S. Elmorsy. (2016) An efficient synthesis of bis(indolyl) methanes and N,N′-alkylidene bisamides by Silzic under solvent free conditions. Chinese Chemical Letters 27:3, pages 353-356.
Crossref
Isravel Muthukrishnan, Perumal Vinoth, Thavaraj Vivekanand, Subbiah Nagarajan, C. Uma Maheswari, J. Carlos Menéndez & Vellaisamy Sridharan. (2015) Synthesis of 5,6-Dihydrodibenzo[ b , h ][1,6]naphthyridines via Copper Bromide Catalyzed Intramolecular [4 + 2] Hetero-Diels–Alder Reactions . The Journal of Organic Chemistry 81:3, pages 1116-1124.
Crossref
Noorullah Baig, Ganesh M. Shelke, Anil Kumar & Ajay K. Sah. (2015) Selective Synthesis of Bis(indolyl)methanes Under Solvent Free Condition Using Glucopyranosylamine Derived cis-Dioxo Mo(VI) Complex as an Efficient Catalyst. Catalysis Letters 146:2, pages 333-337.
Crossref
Ahmad Shaabani, Ronak Afshari, Seyyed Emad Hooshmand, Azadeh Tavousi Tabatabaei & Fatemeh Hajishaabanha. (2016) Copper supported on MWCNT-guanidine acetic acid@Fe 3 O 4 : synthesis, characterization and application as a novel multi-task nanocatalyst for preparation of triazoles and bis(indolyl)methanes in water . RSC Advances 6:22, pages 18113-18125.
Crossref
L. Z. Fekri, M. Nikpassand & M. Kohansal. (2016) Fe+3-Montmorillonite K10, as effective, eco-friendly, and reusable catalyst for the synthesis of bis(1H-indol-3-yl)methanes under grinding condition. Russian Journal of General Chemistry 85:12, pages 2861-2866.
Crossref
Er-Qian Ma, Ping Wang, Pei-He Li & Li-Ping Mo. (2014) A mild and practical procedure for synthesis of substituted 2-aminobenzophenones. Research on Chemical Intermediates 41:9, pages 6433-6441.
Crossref
Shokip Tumtina, Chingrishon Kathing, Ivulho Tovishe Phucho, Ridaphun Nongrum, Bekington Myrboh & Rishanlang Nongkhlaw. (2015) Triethylbenzylammonium Chloride as a Useful and Efficient Catalyst for the Alkylation of Indole/substituted Indoles in Water: A Comparative Study between Conventional and Microwave Irradiation. Journal of the Chinese Chemical Society 62:4, pages 321-327.
Crossref
Pinky Gogoi, Arup Kumar Dutta, Parishmita Sarma & Ruli Borah. (2015) Development of Brönsted–Lewis acidic solid catalytic system of 3-methyl-1-sulfonic acid imidazolium transition metal chlorides for the preparation of bis(indolyl)methanes. Applied Catalysis A: General 492, pages 133-139.
Crossref
Peng Liu, Jian-Wu Hao, Li-Ping Mo & Zhan-Hui Zhang. (2015) Recent advances in the application of deep eutectic solvents as sustainable media as well as catalysts in organic reactions. RSC Advances 5:60, pages 48675-48704.
Crossref
Sudipta Raha Roy, A. Nijamudheen, Anand Pariyar, Anup Ghosh, Pavan K. Vardhanapu, Prasun K. Mandal, Ayan Datta & Swadhin K. Mandal. (2014) Phenalenyl in a Different Role: Catalytic Activation through the Nonbonding Molecular Orbital. ACS Catalysis 4:12, pages 4307-4319.
Crossref
Deqiang Liang, Wenzhong Huang, Lin Yuan, Yinhai Ma, Jingmei Ma & Deman Ning. (2014) An underrated cheap Lewis acid: Molecular bromine as a robust catalyst for bis(indolyl)methanes synthesis. Catalysis Communications 55, pages 11-14.
Crossref
Yingying Song, Chen Cheng & Huanwang Jing. (2014) Aza‐Crown Ether Complex Cation Ionic Liquids: Preparation and Applications in Organic Reactions. Chemistry – A European Journal 20:40, pages 12894-12900.
Crossref
Hojat Veisi, Meral Ataee, Pegah Darabi-Tabar, Effat Amiri & Ali Reza Faraji. (2014) One-pot conversion of aromatic compounds to the corresponding bis(indolyl)methanes by the Vilsmeier–Haack reaction. Comptes Rendus Chimie 17:4, pages 305-309.
Crossref
Keivan Ghodrati, Saied Hosseine Hosseini, Rasol Mosaedi, Changiz Karami, Fariba Maleki, Azita Farrokhi & Zohreh Hamidi. (2013) Convenient, efficient, and green method for synthesis of bis(indolyl)methanes with nano SIO2 under ultrasonic irradiation. International Nano Letters 3:1.
Crossref
Zeba N. Siddiqui & Saima Tarannum. (2013) Xanthan sulfuric acid: An efficient and biodegradable solid acid catalyst for the synthesis of bis(indolyl)methanes under solvent-free conditions. Comptes Rendus Chimie 16:9, pages 829-837.
Crossref
Arindam Modak, John Mondal & Asim Bhaumik. (2013) Highly Porous Organic Polymer containing Free ‐CO 2 H Groups: A Convenient Carbocatalyst for Indole CH Activation at Room Temperature . ChemCatChem 5:7, pages 1749-1753.
Crossref
Seyed Meysam Baghbanian, Yaser Babajani, Hamed Tashakorian, Samad Khaksar & Maryam Farhang. (2013) p-sulfonic acid calix[4]arene: An efficient reusable organocatalyst for the synthesis of bis(indolyl)methanes derivatives in water and under solvent-free conditions. Comptes Rendus Chimie 16:2, pages 129-134.
Crossref
Rasokkiyam Elayaraja & R. Joel Karunakaran. (2012) Cesium carbonate mediated synthesis of 3-(α-hydroxyaryl)indoles. Tetrahedron Letters 53:51, pages 6901-6904.
Crossref
Bo-Lun Hu, Hua-Nan Hu & Ri-Yuan Tang. (2012) Silver Nitrate Catalysed Tandem Reactions of O-Ethynylanilines with Aryl Aldehydes: Selective One-Pot Synthesis of Bis(Indolyl)Methanes. Journal of Chemical Research 36:8, pages 468-471.
Crossref
T.S.R. Prasanna & K. Mohana Raju. (2012) Quick Access to Bis(indolyl)methanes: T3P as a Novel Catalyst System. Journal of the Korean Chemical Society 56:1, pages 74-77.
Crossref
Khalid Mohammed Khan, Muhammad Taha, Fazal Rahim, Waqas Jamil, Shahnaz Perveen & Muhammad Iqbal Choudhary. (2012) An efficient synthesis of substituted bis(indolyl)methanes using sodium bromate and sodium hydrogen sulfite in water. Journal of the Iranian Chemical Society 9:1, pages 81-83.
Crossref
Shafeek A. R. Mulla, A. Sudalai, Mohsinkhan Y. Pathan, Shafi A. Siddique, Suleman M. Inamdar, Santosh S. Chavan & R. Santosh Reddy. (2012) Efficient, rapid synthesis of bis(indolyl)methane using ethyl ammonium nitrate as an ionic liquid. RSC Advances 2:8, pages 3525.
Crossref
Reza Tayebee, Farzaneh Nehzat, Esmail Rezaei-Seresht, Farokhzad Z. Mohammadi & Ezzat Rafiee. (2011) An efficient and green synthetic protocol for the preparation of bis(indolyl)methanes catalyzed by H6P2W18O62·24H2O, with emphasis on the catalytic proficiency of Wells-Dawson versus Keggin heteropolyacids. Journal of Molecular Catalysis A: Chemical 351, pages 154-164.
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.
Crossref
Hojat Veisi, Alireza Sedrpoushan, Mohammad Ali Zolfigol & Farajollah Mohanazadeh. (2011) Synthesis and application of silica phenyl sulfonic acid as a solid acid heterogeneous catalyst for one-pot synthesis of 2-aryl-1-arylmethyl-1H-1,3-benzimidazoles and bis(indolyl)methanes in water. Journal of Heterocyclic Chemistry 48:6, pages 1448-1454.
Crossref
Hojat Veisi, Reza Gholbedaghi, Javad Malakootikhah, Alireza Sedrpoushan, Behrooz Maleki & Davood Kordestani. (2010) Trichloroisocyanuric acid‐catalyzed reaction of indoles: An expeditious synthesis of bis‐indolyl, tris‐indolyl, di(bis‐indolyl), tri(bis‐indolyl), and tetra(bis‐indolyl)methane under solid‐state conditions. Journal of Heterocyclic Chemistry 47:6, pages 1398-1405.
Crossref
Vyacheslav Ya. Sosnovskikh, Dmitri V. Sevenard, Vladimir S. Moshkin, Viktor O. Iaroshenko & Peter Langer. (2010) Reactivity of 3-formyl- and 3-cyanothiochromones toward some N- and C-nucleophiles. Novel synthesis of 3-substituted 2-aminothiochromones. Tetrahedron 66:36, pages 7322-7328.
Crossref
Hong-Gang Cheng, Cai-Bao Chen, Fen Tan, Ning-Jie Chang, Jia-Rong Chen & Wen-Jing Xiao. (2010) Convenient Synthesis of Tetrahydro-γ-carbolines and Tetrahydroquinolines through a Chemo- and Regioselectivity Switch by a Brønsted Acid Catalyzed, One-Pot, Multicomponent Reaction. European Journal of Organic Chemistry 2010:26, pages 4976-4980.
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
Li‐Ping Mo & Hong‐Li Chen. (2013) One‐Pot, Three‐Component Condensation of Aldehydes, 2‐Naphthol and 1,3‐Dicarbonyl Compounds. Journal of the Chinese Chemical Society 57:2, pages 157-161.
Crossref
Ramin Ghorbani-Vaghei, Hojat Veisi, Hassan Keypour & Ahmad Ali Dehghani-Firouzabadi. (2009) A practical and efficient synthesis of bis(indolyl)methanes in water, and synthesis of di-, tri-, and tetra(bis-indolyl)methanes under thermal conditions catalyzed by oxalic acid dihydrate. Molecular Diversity 14:1, pages 87-96.
Crossref
Richard J. Sundberg. 2010. Heterocyclic Scaffolds II:. Heterocyclic Scaffolds II: 47 115 .
Marco Bandini & Astrid Eichholzer. (2009) Catalytic Functionalization of Indoles in a New Dimension. Angewandte Chemie International Edition 48:51, pages 9608-9644.
Crossref
Marco Bandini & Astrid Eichholzer. (2009) Katalytische Funktionalisierung von Indolen in einer neuen Dimension. Angewandte Chemie 121:51, pages 9786-9824.
Crossref
Zhan-Hui Zhang, Hong-Juan Wang, Xiao-Qian Ren & Yan-Yan Zhang. (2009) A facile and efficient method for synthesis of xanthone derivatives catalyzed by HBF4/SiO2 under solvent-free conditions. Monatshefte für Chemie - Chemical Monthly 140:12, pages 1481-1483.
Crossref
C. Praveen, K. Karthikeyan & P.T. Perumal. (2009) Efficient synthesis of 3-substituted indoles through a domino gold(I) chloride catalyzed cycloisomerization/C3-functionalization of 2-(alkynyl)anilines. Tetrahedron 65:45, pages 9244-9255.
Crossref
Majid M. Heravi, Samaheh Sadjadi, Sodeh Sadjadi, Hossein A. Oskooie & Fatemeh F. Bamoharram. (2009) A convenient synthesis of bis(indolyl)alkanes under ultra sonic irradiation using silica-supported Preyssler nano particles. Ultrasonics Sonochemistry 16:6, pages 718-720.
Crossref
M. Damodiran, D. Muralidharan & Paramasivan T. Perumal. (2009) Regioselective synthesis and biological evaluation of bis(indolyl)methane derivatized 1,4-disubstituted 1,2,3-bistriazoles as anti-infective agents. Bioorganic & Medicinal Chemistry Letters 19:13, pages 3611-3614.
Crossref
Hojat Veisi, Saba Hemmati & Hamed Veisi. (2013) Highly Efficient Method for Synthesis of Bis(Indolyl)Methanes Catalyzed by FeCl 3− based Ionic Liquid . Journal of the Chinese Chemical Society 56:2, pages 240-245.
Crossref
Yu-Heng Liu, Qiu-Shuang Liu & Zhan-Hui Zhang. (2009) An efficient Friedel–Crafts alkylation of nitrogen heterocycles catalyzed by antimony trichloride/montmorillonite K-10. Tetrahedron Letters 50:8, pages 916-921.
Crossref
C. Praveen, Y. Wilson Sagayaraj & P.T. Perumal. (2009) Gold(I)-catalyzed sequential cycloisomerization/bis-addition of o-ethynylanilines: an efficient access to bis(indolyl)methanes and di(indolyl)indolin-2-ones. Tetrahedron Letters 50:6, pages 644-647.
Crossref
Peng Zhang & Zhan-Hui Zhang. (2008) Preparation of amidoalkyl naphthols by a three-component reaction catalyzed by 2,4,6-trichloro-1,3,5-triazine under solvent-free conditions. Monatshefte für Chemie - Chemical Monthly 140:2, pages 199-203.
Crossref
Nagnnath D. Kokare, Jaiprakash N. Sangshetti & Devanand B. Shinde. (2008) Oxalic acid as a catalyst for efficient synthesis of bis-(indolyl)methanes, and 14-aryl-14H-dibenzo[a,j]xanthenes in water. Chinese Chemical Letters 19:10, pages 1186-1189.
Crossref
Nicholas D. P. Cosford, Liming Zhang & Guotao Li. 2001. Encyclopedia of Reagents for Organic Synthesis. Encyclopedia of Reagents for Organic Synthesis.
Mohammad Ali Zolfigol, Peyman Salehi, Morteza Shiri, Azam Sayadi, Abbas Abdoli, Hassan Keypour, Majid Rezaeivala, Khodabakhsh Niknam & Eskandar Kolvari. (2008) A simple and efficient route for the synthesis of di and tri(bis(indolyl) methanes) as new triarylmethanes. Molecular Diversity 12:3-4, pages 203-207.
Crossref
Zhan-Hui Zhang, Jian-Jiong Li & Tong-Shan Li. (2008) Ultrasound-assisted synthesis of pyrroles catalyzed by zirconium chloride under solvent-free conditions. Ultrasonics Sonochemistry 15:5, pages 673-676.
Crossref
Vyacheslav Ya. Sosnovskikh, Roman A. Irgashev & Anna A. Levchenko. (2008) Uncatalyzed addition of indoles and N-methylpyrrole to 3-formylchromones: synthesis and some reactions of (chromon-3-yl)bis(indol-3-yl)methanes and E-2-hydroxy-3-(1-methylpyrrol-2-ylmethylene)chroman-4-ones. Tetrahedron 64:28, pages 6607-6614.
Crossref
Geng-Chen Li. (2008) Simple and efficient synthesis of 3-aminopropenones and 3-aminopropenoates catalyzed by copper(II) nitrate trihydrate under solvent-free conditions. Monatshefte für Chemie - Chemical Monthly 139:7, pages 789-792.
Crossref
Sharmin V. Nadkarni, Manoj B. Gawande, Radha V. Jayaram & Jayashree M. Nagarkar. (2008) Synthesis of bis(indolyl)methanes catalyzed by surface modified zirconia. Catalysis Communications 9:8, pages 1728-1733.
Crossref
Rosario Martínez, Arturo Espinosa, Alberto Tárraga & Pedro Molina. (2008) Bis(indolyl)methane derivatives as highly selective colourimetric and ratiometric fluorescent molecular chemosensors for Cu2+ cations. Tetrahedron 64:9, pages 2184-2191.
Crossref
Aswathanarayana Srinivasa, Putta Prabhakar Varma, Vijaykumar Hulikal & Kittappa M. Mahadevan. (2007) Antimony(III) Sulfate Catalyzed Condensation Reaction of Indoles with Carbonyl Compounds. Monatshefte für Chemie - Chemical Monthly 139:2, pages 111-115.
Crossref
Asit K. Chakraborti, Sudipta Raha Roy, Dinesh Kumar & Pradeep Chopra. (2008) Catalytic application of room temperature ionic liquids: [bmim][MeSO4] as a recyclable catalyst for synthesis of bis(indolyl)methanes. Ion-fishing by MALDI-TOF-TOF MS and MS/MS studies to probe the proposed mechanistic model of catalysis. Green Chemistry 10:10, pages 1111.
Crossref
Zhan-Hui Zhang, Tong-Shuang Li & Jian-Jiong Li. (2007) Synthesis of enaminones and enamino esters catalysed by ZrOCl2· 8H2O. Catalysis Communications 8:11, pages 1615-1620.
Crossref
Zhan‐Hui Zhang, Jian‐Jiong Li, Yuan‐Zhe Gao & Yu‐Heng Liu. (2009) Synthesis of 2‐substituted benzimidazoles by iodine‐mediated condensation of orthoesters with 1,2‐phenylenediamines. Journal of Heterocyclic Chemistry 44:6, pages 1509-1512.
Crossref
Vyacheslav Ya. Sosnovskikh & Roman A. Irgashev. (2007) Uncatalyzed addition of indoles and N-methylpyrrole to 3-formylchromones: synthesis of (chromon-3-yl)bis(indol-3-yl)methanes and E-2-hydroxy-3-(1-methylpyrrol-2-ylmethylene)chroman-4-ones under solvent-free conditions. Tetrahedron Letters 48:42, pages 7436-7439.
Crossref
Javad Azizian, Fatemeh Teimouri & Mohammad Reza Mohammadizadeh. (2007) Ammonium chloride catalyzed one-pot synthesis of diindolylmethanes under solvent-free conditions. Catalysis Communications 8:7, pages 1117-1121.
Crossref
Vinod T. Kamble, Kailash R. Kadam, Neeta S. Joshi & Dnyanoba B. Muley. (2007) HClO4–SiO2 as a novel and recyclable catalyst for the synthesis of bis-indolylmethanes and bis-indolylglycoconjugates. Catalysis Communications 8:3, pages 498-502.
Crossref
Mohammad Ali Zolfigol, Peyman Salehi, Morteza Shiri & Zahra Tanbakouchian. (2007) A new catalytic method for the preparation of bis-indolyl and tris-indolyl methanes in aqueous media. Catalysis Communications 8:2, pages 173-178.
Crossref
Erin T. Pelkey. 2007. A critical review of the 2005 literature preceded by two chapters on current heterocyclic topics. A critical review of the 2005 literature preceded by two chapters on current heterocyclic topics 150 186 .
M.A. Pasha & V.P. Jayashanka. (2006) p-Toluenesulfonic Acid (p-TSA) Catalyzed Efficient Synthesis of bis(indolyl)methanes under Grindstone Method. Journal of Pharmacology and Toxicology 1:6, pages 585-590.
Crossref
Li‐Ping Mo, Zi‐Chuan Ma & Zhan‐Hui Zhang. (2005) CuBr 2 ‐Catalyzed Synthesis of Bis(indolyl)methanes. . ChemInform 36:50.
Crossref

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.