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For recent reviews on microwave-assisted organic synthesis see:
(a) Adam, D. (2003) Microwave Chemistry: Out of the Kitchen. Nature, 421, 571-572.
http://dx.doi.org/10.1038/421571a
(b) Kappe, C.O. and Dallinger, D. (2006) The Impact of Microwave Synthesis on Drug Discovery. Nature Reviews Drug Discovery, 5, 51-63.
http://dx.doi.org/10.1038/nrd1926
(c) Nagariya, A.K., Meena, A.K., Kiran, K., Yadav, A.K., Niranjan, U.S., Pathak, A.K., Singh, B. and Rao, M.M. (2010) Microwave Assisted Organic Reaction as New Tool in Organic Synthesis. Journal of Pharmacy Research, 3, 575-580.
(d) Jignasa, K.S., Ketan, T.S., Bhumika, S.P. and Anuradha, K.G. (2010) Microwave Assisted Organic Synthesis: An Alternative Synthetic Strategy. Der Pharma Chemica, 2, 342-353.
(e) Bose, A.K., Banik, B.K., Lavlinskaia, N., Jayaraman, M. and Manhas, M.S. (1997) MORE Chemistry in a Microwave. Chemtech, 27, 18-24.
(f) Bose, A.K., Manhas, M.S., Ganguly, S.N., Sharma, A.H. and Banik, B.K. (2002) MORE Chemistry for Less Pollution: Applications for Process Development. Synthesis, 11, 1578-1591.
http://dx.doi.org/10.1055/s-2002-33344
has been cited by the following article:
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TITLE:
Microwave Reactors: A Brief Review on Its Fundamental Aspects and Applications
AUTHORS:
Kalyan Kumar Rana, Suparna Rana
KEYWORDS:
Microwave, Dielectric Heating, Loss Angle, Monomode, Multimode, Synthesis
JOURNAL NAME:
Open Access Library Journal,
Vol.1 No.6,
September
15,
2014
ABSTRACT: Improved laboratory protocols for convenient and rapid transformations are highly desired in modern synthetic chemistry. Microwave irradiated reactions have received considerable attention in recent years and it is a subject of intense discussion in the scientific community. Microwave heating is more efficient in terms of the energy used, produces higher temperature homogeneity and is considerably more rapid than conventional heating methods. This technique as an alternative to conventional energy sources for introduction of energy into reactions has become a recognized practical method in various fields of chemistry. Microwave-assisted organic synthesis (MAOS) is known for the spectacular accelerations produced in many reactions as a consequence of the increased heating rate, a phenomenon that cannot be easily reproduced by classical heating means. As a result, higher yields, milder reaction conditions and shorter reaction times can often be attained. Its specific heating method attracts extensive interest not only because of rapid volumetric heating, but also for suppressed side reactions, energy saving, decreased environmental pollutions and safe operations. In this review, we will try to represent an overview on origin and fundamental features of microwave ovens and its usefulness in MAOS.
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