ISSN

0974-4150 (Online)
0974-4169 (Print)


Author(s): Aishwarya A Jadhav, Rasika P. Devale

Email(s): jadhavaishwaryaa@gmail.com

DOI: 10.52711/0974-4150.2022.00031   

Address: Aishwarya A Jadhav, Rasika P. Devale
Department of B Pharmacy, Yashoda Technical Campus, Satara.
*Corresponding Author

Published In:   Volume - 15,      Issue - 2,     Year - 2022


ABSTRACT:
In this review we explain all the detailed information about Microwave assisted synthesis. Now a days the Microwave very much beneficial in to Microwave assisted synthesis reaction for green chemistry work by the various reactions. this is initially used by the save energy and rate of reaction is fast. Microwave synthesis capable of predicting many properties and rate of synthesis reaction is fast in small period of time to get from product. all type chemical reaction synthesis is also done by this microwave. various authors words on their subject by using this Microwave assisted synthesis. I show interest into microwave because of this is very beneficial for performing synthesis of reaction. In microwave various principals are added and this will be beneficial or helpful to guide scientist.


Cite this article:
Aishwarya A Jadhav, Rasika P. Devale. Review on Microwave, The General purpose in Microwave Assisted Synthesis for Green Chemistry. Asian Journal of Research in Chemistry. 2022; 15(2):182-5. doi: 10.52711/0974-4150.2022.00031

Cite(Electronic):
Aishwarya A Jadhav, Rasika P. Devale. Review on Microwave, The General purpose in Microwave Assisted Synthesis for Green Chemistry. Asian Journal of Research in Chemistry. 2022; 15(2):182-5. doi: 10.52711/0974-4150.2022.00031   Available on: https://ajrconline.org/AbstractView.aspx?PID=2022-15-2-15


REFERENCE:
1.    Madhavi Asurati, Smita Jauhari, K.R Desai a Belief Review: Microwave Assisted Organic Reaction.
2.    Microwave Chemistry: General Features and Application Monika Gaba, Neelima Dhingra.
3.    V. K. Ahluwalia, Green Chemistry Environmentally Benign Reaction. First Edition 2006, Page no.1.
4.    Kappe, C. O. (2004) Angew. Chem. Int. Ed., 43, 6250.
5.    Kappe, C. O., Dallinger, D. (2006) Nat. Drug. Disc. Rev.,5, 51.
6.    Nagariya A.K., Meena. A.K., Kiran, Yadav A.K., Niranjan. U.S., Pathak A.K., Singh.B., Rao. M.M. (2010) Journal of Pharmacy Research. 3, 575-580.
7.    Datta and Ananth Eswaran 2001, Hao Jiang, Zhigang Liu and Shaojin Wang (2017) : Microwave processing effect and impacts on food components, critical reviews in food science and nutrition, DOI : 10: 1080110408398.2017,1319322
8.    Raghubar Singh, Heating Mechanism of Microwave
9.    Datta A.K. 1998 Understanding and Improvements of Microwave oven heating proceeding of the Appliance Manufacture Conference and Expo.1998 October 12-14; Nashville, TN
10.    Datta A.K., V. Rakesh, Principle of Microwave Combination Heating 2013 Page no. 24 Theoretically Aspects of Microwave Dielectric heating: -
11.    Amparo Borrell, Maria Dolores Salvador. Advanced ceramic materials sintered by microwave. technology submitted February 13th 2018 Reviewed May 18th 2018 Published October 31st 2018 DOI:10,5772 / intechope 78831
12.    Horst Linn, Malte Moller, Dielectric Heating. Page no.6
13.    Comparing Microwave to Conventional Heating and Drying. 2012
14.    P. Nilson, K. Olofsson, M. Larhed, Microwave Assisted and Metal Catalyze Coupling Reaction pp 103-144
15.    The method adopted is the described by H.H. Freedman and R.A. Dubois, Tetrahedron Left, 1975,3251 American Journal of Organic Chemistry P-ISSN : 2163-1271 E-ISSN : 2163.1301 , 2015, 5(4) , 113-115 doi:10, 5923. ajoc. 20150504.01.
16.    Shivani Gulati, Stephy Elza John, And Nagula Shankaraiah, Beilsteinj Organic Chemistry 2021; 17:819-865 published online 2021 Apr 19 doi.10.3762/bjac.17.71.Microbiology – Assisted Multicomponent Reaction in Heterocyclic Chemistry and Mechanistic Aspects.
17.    Bogley.M. C, Lubinu M.C Microwave Assisted Multicomponent reaction for the synthesis of heterocycles in: Van Dereycken E, Kappe Co, Edrtos microwave assisted synthesis of heterocycles.vol.1. Berlin, Heidelberg: Springer 2006. pp.31-58 (Topics in Heterocyclic Chemistry)
18.    Ian R. Baxendale, Ai – Lee and steven V. Ley, A concise synthesis of Carpanone Using solid – Supported Reagents Scavengers.
19.    Baure, U. et.al Tetrahedron Lett.2000 41,2713- 2717 solid Supported Reagents Biotage 2014.
20.    David H. Drewry. Diane M. Coe, Steve Poon. Glaxo welcome research and development, 5 Moore Dr. Research Triangle park, NC.27709 Glaxo Welcome Medicine Research Centre, Gunnels Wood Road, Stevenage Hetfarelshire SGI 2NY United Kingdom
21.    Evelina Colacino, Frederic Lamaty, Jean Martinez, Isabelle parrot, cited by,61. Publish year:2017
22.    Jennifer M, Kremsner, Alexander Stadler, C Aiver Kappe. Chapter first online 15 July 2006.
23.    D. Villenmin, B. Labiad, Synthetic Commun. 1990, 20(20), 3213.     
24.    Microwave radiation, an electromagnetic radiation, is widely used as a source of heating in organic synthesis. Green Chemistry S. Ravichandran and E. Karthikeyan Department of Chemistry, Savith. A School of Engineering, Savitha University, Thandalam, Chennai - 602 105, India. Jan-Mar 2011.
25.    The Major applications of Green Chemistry Principles And Practice Renders Control, Regulation, and Remediation, Microwave Assisted Synthesis. Microwave-assisted synthesis: review of recent developments Neha Gupta Department of Chemistry, Dev Samaj College for Women, Ferozepur City.18th-19th march 20017.
26.    Solvent-free methods are especially adapted to organic synthesis under Green Chemistry conditions. this article: A. Loopy, C. R. Chime 7 (2004). © 2004 Académie Des Sciences. Published by Elsevier SAS. All rights reserved in 2004.  
27.    The Synthetic Methodology Under Microwave Irradiation is renewable and sustainable tool of energy saving. Current Research in Green and Sustainable Chemistry June 2020, 100014.
28.    Biological activity of derived from Hemicellulose via Microwave Assisted Green Synthesis in 2021.

Recomonded Articles:

Author(s): Mukesh K. Nagar, Karishma R. Waghmare, P.N. Dhabale, Pradeep D. Chanekar, Suresh Bhatia

DOI:         Access: Open Access Read More

Author(s): Tripti Jain, V Jain, R Pandey, A Vyas, SS Shukla

DOI:         Access: Open Access Read More

Author(s): Nandkishor Telkapalliwar, Vidyadhar Shivankar

DOI: 10.5958/0974-4150.2017.00009.8         Access: Open Access Read More

Author(s): Atul R. Bendale, Neha Patel, Sushil P. Narkhede, Sachin B. Narkhede, Anil G. Jadhav, G. Vidyasagar

DOI:         Access: Open Access Read More

Author(s): Deepti Dongarwar Inamdar, Afeez M Dinakaran, Vadiraj D Kurdekar, Hemant R Jadhav

DOI:         Access: Open Access Read More

Author(s): NS Mahajan, RL Jadhav, KK Mali, NV Pimpodkar, AM Manikrao

DOI:         Access: Open Access Read More

Author(s): Gandra Sandhya, Garepalli Ganga Sravanthi

DOI: 10.5958/0974-4150.2018.00022.6         Access: Open Access Read More

Author(s): Pattan Shashikant R, Kekare Prajact, NS Dighe, SB Bhawar, Nikalje Ana, Pati Ashwini, MB Hole

DOI:         Access: Open Access Read More

Author(s): Siddhartha Marupati, Laxminarayana Eppakayala, Ramesh Malothu, Ramchander Merugu, Venkat Reddy Pendyala

DOI: 10.5958/0974-4150.2017.00099.2         Access: Open Access Read More

Author(s): Dipika Vyawahare, Anna Pratima Nikalje

DOI:         Access: Open Access Read More

Author(s): P. Manikandan, K. Rajasekar, T. Gomadurai, B. Sathiyamoorthy, P. Sudhakar

DOI: 10.5958/0974-4150.2018.00085.8         Access: Open Access Read More

Author(s): Jignesh P Raval, Hemul V Patel, Pradip S. Patel, Nilesh H Patel, Kishor R Desai

DOI:         Access: Open Access Read More

Author(s): M. Srinivas, Y. Rajendra Prasad, S. Chandrashekaran

DOI:         Access: Open Access Read More

Author(s): Monika Bansal, Ramandeep Kaur, Balbir Kaur

DOI:         Access: Open Access Read More

Asian Journal of Research in Chemistry (AJRC) is an international, peer-reviewed journal devoted to pure and applied chemistry..... Read more >>>

RNI: Not Available                     
DOI: 10.5958/0974-4150 

Popular Articles


Recent Articles




Tags