Bleaching earth clay pH 12.5/PEG-400 catalytic system for synthesis of some novel α, β-unsaturated ketones (chalcones)

Milind Gaikwad; Rahul Kamble; Shrikant Hese; Ashok Acharya; Pratima Mogle; Shuddhodan Kadam; Bhaskar Dawane

doi:10.1007/s11164-014-1559-z

We report bleaching earth clay pH 12.5/PEG-400 as an efficient catalytic system for preparation of α,β-unsaturated ketones (chalcones). The method presents one or more advantages over existing methodologies such as shorter reaction time, excellent yield, and low cost. All synthesized products were characterized by spectroscopic and analytical measurements.

Loading next page...

References (20)

A. Modzelewska, Catherine Pettit, Geetha Achanta, N. Davidson, Peng Huang, Saeed Khan (2006)
Anticancer activities of novel chalcone and bis-chalcone derivatives.
Bioorganic & medicinal chemistry, 14 10
M. Bello, L. Chiaradia, L. Dias, L. Pacheco, T. Stumpf, A. Mascarello, M. Steindel, R. Yunes, H. Castro, R. Nunes, C. Rodrigues (2011)
Trimethoxy-chalcone derivatives inhibit growth of Leishmania braziliensis: synthesis, biological evaluation, molecular modeling and structure-activity relationship (SAR).
Bioorganic & medicinal chemistry, 19 16
S. Jain, S. Singhal, B. Sain (2007)
PEG-assisted solvent and catalyst free synthesis of 3,4-dihydropyrimidinones under mild reaction conditions
Green Chemistry, 9
R. Sheldon (1994)
Catalytic Oxidations in the Manufacture of Fine Chemicals
Studies in Surface Science and Catalysis, 55
J. Dimmock, D. Elias, M. Beazely, N. Kandepu (1999)
Bioactivities of chalcones.
Current medicinal chemistry, 6 12
S. Chandrasekhar, Ch. Narsihmulu, S. Sultana, N. Reddy (2002)
Poly(ethylene glycol) (PEG) as a reusable solvent medium for organic synthesis. Application in the Heck reaction.
Organic letters, 4 25
A. Acharya, Rahul Kamble, S. Patil, S. Hese, O. Yemul, B. Dawane (2015)
Green method for synthesis of 3-[2-(substituted-phenyl)-2-oxo ethylidene]-1,3-dihydro-indol-2-one and their in vitro antimicrobial activity
Research on Chemical Intermediates, 41
Toshio Inoue, Y. Sugimoto, H. Masuda, C. Kamei (2002)
Antiallergic effect of flavonoid glycosides obtained from Mentha piperita L.
Biological & pharmaceutical bulletin, 25 2
Ho Yoo, Seung Kim, Jiyong Lee, H. Kim, S. Seo, B. Chung, C. Jin, Yong Lee (2005)
Synthesis and Antioxidant Activity of 3-Methoxyflavones
Bulletin of The Korean Chemical Society, 26
G. Abuo-Rahma, Mohamed Abdel-Aziz, Mai Mourad, H. Farag (2012)
Synthesis, anti-inflammatory activity and ulcerogenic liability of novel nitric oxide donating/chalcone hybrids.
Bioorganic & medicinal chemistry, 20 1
M. Balogh, M. Balogh (1993)
Organic Chemistry Using Clays
S. López, M. Castelli, S. Zacchino, J. Domínguez, G. Lobo, Jaime Charris-Charris, J. Cortés, J. Ribas, C. Devia, A. Rodriguez, R. Enriz (2001)
In vitro antifungal evaluation and structure-activity relationships of a new series of chalcone derivatives and synthetic analogues, with inhibitory properties against polymers of the fungal cell wall.
Bioorganic & medicinal chemistry, 9 8
B. Dawane, Baseer Shaikh, Namdev Khandare, V. Kamble, S. Chobe, S. Konda (2010)
Eco-friendly polyethylene glycol-400: a rapid and efficient recyclable reaction medium for the synthesis of thiazole derivatives
Green Chemistry Letters and Reviews, 3
Z. Nowakowska (2007)
A review of anti-infective and anti-inflammatory chalcones.
European journal of medicinal chemistry, 42 2
B. Dawane, S. Konda, G. Mandawad, Baseer Shaikh (2010)
Poly(ethylene glycol) (PEG-400) as an alternative reaction solvent for the synthesis of some new 1-(4-(4'-chlorophenyl)-2-thiazolyl)-3-aryl-5-(2-butyl-4-chloro-1H-imidazol-5yl)-2-pyrazolines and their in vitro antimicrobial evaluation.
European journal of medicinal chemistry, 45 1
M. Go, X. Wu, X. Liu (2005)
Chalcones: an update on cytotoxic and chemoprotective properties.
Current medicinal chemistry, 12 4
D. Heldebrant, P. Jessop (2003)
Liquid poly(ethylene glycol) and supercritical carbon dioxide: a benign biphasic solvent system for use and recycling of homogeneous catalysts.
Journal of the American Chemical Society, 125 19
Rahul Kamble, B. Dawane, O. Yemul, Amol Kale, S. Patil (2013)
Bleaching earth clay (pH 12.5): a green catalyst for rapid synthesis of pyranopyrazole derivatives via a tandem three-component reaction
Research on Chemical Intermediates, 39
A. Soni, G. Krupadanam, G. Srimannarayana (2006)
Synthesis of new 2-[3-aryl-5-methyl-4-isooxazolyl]-7-hydroxy-3-phenyl-4H-1-benzopyran-4-ones and their insect-antifeedant activity
Arkivoc, 2006
A. Acharya, Rahul Kamble, S. Patil, S. Hese, O. Yemul, S. Patil, Shivshankar Halale, B. Dawane (2014)
“Green synthesis” of benzothiazepine library of indeno analogues and their in vitro antimicrobial activity
Chemical Papers, 68

Publisher: Springer Journals
Subject: Chemistry; Catalysis; Physical Chemistry; Inorganic Chemistry
ISSN: 0922-6168
eISSN: 1568-5675
DOI: 10.1007/s11164-014-1559-z
Publisher site: See Article on Publisher Site

Get 20M+ Full-Text Papers For Less Than $1.50/day. Start a 14-Day Trial for You or Your Team.

Learn More →

Bleaching earth clay pH 12.5/PEG-400 catalytic system for synthesis of some novel α, β-unsaturated ketones (chalcones)

Bleaching earth clay pH 12.5/PEG-400 catalytic system for synthesis of some novel α, β-unsaturated ketones (chalcones)

Get 20M+ Full-Text Papers For Less Than $1.50/day. Start a 14-Day Trial for You or Your Team.

Learn More →

Bleaching earth clay pH 12.5/PEG-400 catalytic system for synthesis of some novel α, β-unsaturated ketones (chalcones)

Bleaching earth clay pH 12.5/PEG-400 catalytic system for synthesis of some novel α, β-unsaturated ketones (chalcones)

References (20)

Abstract

Journal

Recommended Articles

There are no references for this article.

Our policy towards the use of cookies