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Microwave-Assisted Organic Synthesis

A Green Chemical Approach

Suresh C. Ameta (Redaktør) ; Pinki B. Punjabi (Redaktør) ; Rakshit Ameta (Redaktør) ; Chetna Ameta (Redaktør)

The large-scale production of chemicals to meet various societal needs has created environmental pollution, including pollution from byproducts and improper disposal of waste. With the world facing adverse consequences due to this pollution, green chemistry is increasingly being viewed as a means to address this concern. Les mer
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Paperback
Legg i
Vår pris: 725,-

(Paperback) Fri frakt!
Leveringstid: Sendes innen 21 dager

Om boka

The large-scale production of chemicals to meet various societal needs has created environmental pollution, including pollution from byproducts and improper disposal of waste. With the world facing adverse consequences due to this pollution, green chemistry is increasingly being viewed as a means to address this concern.







Since most organic syntheses require toxic solvents, more reaction time, and drastic conditions of temperature, conventional methods of organic synthesis are less preferred. Microwave-assisted organic synthesis is considered to be a promising green chemical approach because it reduces reaction time from days or hours to minutes or even seconds, and has many other advantages. It helps reduce side reactions and increase yields, uses fewer solvents or is almost solvent-free, has solid supported reactions, and improves purity.







This book's main focus is microwave-assisted organic synthesis processes, particularly various reactions such as cycloaddition, rearrangement, elimination, substitution, oxidation, reduction, condensation, coupling, polymerization, nanomaterials, synthesis of heterocycles, and industrial applications under microwave irradiation. The time is not far off when this methodology will virtually replace existing and cumbersome methods of organic synthesis.

Fakta

Innholdsfortegnelse

Introduction; Suresh C. Ameta

Instrumentation; Chetna Ameta, Purnima Dashora, and Ritu Vyas

Oxidation; Chetna Ameta, Poonam Kumawat, and Abhilasha Tripathi

Reduction; Sangeeta Kalal, Kiran Meghwal, Meenakshi Joshi, and Pinki B. Punjabi

Substitution; Meenakshi Singh Solanki, Shikha Panchal, and Ritu Vyas

Alkylation and Arylation; Sanyogita Sharma, Neelam Kunwar and Suresh C. Ameta

Addition; Abhilasha Jain, Priya Parsoya and Dipti Soni

Cycloaddition; Abhilasha Jain, K. L. Ameta, Pinki B. Punjabi and Suresh C. Ameta

Elimination; Chetna Ameta, Kumudini Bhanat, Arpit Kumar Pathak, and Pinki. B. Punjabi

Condensation; Sanyogita Sharma, Abhilasha Jain, and Rakshit Ameta

Rearrangement; Paras Tak, Nirmala Jangid, and Pinki B. Punjabi

Coupling; Surbhi Benjamin, Neelam Kunwar, Kumudini Bhanat, and Suresh C. Ameta

Syntheses of Heterocycles; Chetna Ameta, Rajat Ameta, and Seema Kothari

Nanomaterials; Surbhi Benjamin, Shweta Sharma, and Rakshit Ameta

Polymerization; Dipti Soni, Monika Trivedi, and Rakshit Ameta

Other Reactions; Surbhi Benjamin, Paras Tak, and Rakshit Ameta

Industrial Applications; Dipti Soni, Jitendra Vardia, and Rakshit Ameta

Future Prospects; Rakshit Ameta

Index