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Green Synthetic Approaches for Biologically Relevant Heterocycles (2nd Ed.) Volume 1: Advanced Synthetic Techniques

Langue : Anglais

Coordonnateur : Brahmachari Goutam

Couverture de l’ouvrage Green Synthetic Approaches for Biologically Relevant Heterocycles

Green Synthetic Approaches for Biologically Relevant Heterocycles, Second Edition, Volume One: Advanced Synthetic Techniques reviews this significant group of organic compounds within the context of sustainable methods and processes, expanding on the first edition with fully updated coverage and a whole range of new chapters. Volume One explores advanced synthetic techniques, with each chapter presenting in-depth coverage of various green protocols for the synthesis of a wide variety of bioactive heterocycles that are classified on the basis of ring-size and/or the presence of heteroatoms. Techniques covered range from high pressure cycloaddition reactions and microwave irradiation to sustainable one-pot domino reactions.

This updated edition is an essential resource on sustainable approaches for academic researchers, R&D professionals, and students working across medicinal, organic, natural product and green chemistry.

1. Green synthetic approaches for biologically relevant heterocycles: Advanced synthetic techniques – an overview 2. Use of Ball Milling for the Synthesis of Biologically Active Heterocycles 3. High pressure cycloaddition reactions in the synthesis of biologically relevant heterocycles 4. Microwave-induced synthesis of heterocycles of medicinal interests 5. Multicomponent reactions under microwave irradiation: a green path to biologically important heterocycles 6. Application of microwave irradiation in the synthesis of P-heterocycles 7. Green approaches for synthesis and functionalization of indole-based heterocycles of biological relevance 8. Sustainable one-pot domino reactions to access significant heterocycles employing dithioesters and their derivatives 9. Solvent-free synthesis of biologically relevant heterocyclic skeletons 10. Photocatalytic Minisci reaction: A promising and eco-friendly route to functionalize heteroaromatics of biological interest 11. Porous catalytic systems in the synthesis of bioactive heterocycles and related compounds 12. Advances on greener processes for triazole synthesis via azide-alkyne cycloaddition reactions 13. Green Chemistry of Imines in Heterocyclic Synthesis 14. Transition-metal-free synthesis of benzo-fused five- and six-membered heterocycles employing arynes 15. Multicomponent approach for the sustainable synthesis of lawsone based heterocycles 16. Sustainable synthesis of Meldrum's acid derived heterocycles via multicomponent reactions

Born on April 14, 1969 in Barala, a village in the district of Murshidabad (West Bengal, India), Goutam Brahmachari had his early education in his native place. He received his high school degree in scientific studies in 1986 at Barala R. D. Sen High School under the West Bengal Council of Higher Secondary Education (WBCHSE). Then he moved to Visva-Bharati (a Central University founded by Rabindranath Tagore at Santiniketan, West Bengal, India) to study chemistry at the undergraduate level. After graduating from this university in 1990, he completed his master’s in 1992 with a specialization in organic chemistry. After that, receiving his Ph.D. in 1997 in chemistry from the same university, he joined his alma mater the very next year and currently holds the position of a full professor of chemistry since 2011. The research interests of Prof. Brahmachari’s group include natural products chemistry, synthetic organic chemistry, green chemistry, and the medicinal chemistry of natural and natural product-inspired synthetic molecules. With about 23 years of experience in teaching and research, he has produced 235 scientific publications, including original research papers, review articles, books, and invited book chapters in the field of natural products and green chemistry. He has already authored/edited 26 books published by internationally reputed major publishing houses, namely, Elsevier Science (The Netherlands), Academic Press (Oxford), Wiley-VCH (Germany), Alpha Science International (Oxford), De Gruyter (Germany), World Scientific (Singapore), CRC Press (Taylor & Francis Group, USA), Royal Society of Chemistry (Cambridge), etc. Prof. Brahmachari serves as a life member for the Indian Association for the Cultivation of Science (IACS), Indian Science Congress Association (ISCA), Kolkata, and Chemical Research Society of India (CRSI), Bangalore. He has also been serving as an associate editor for Current Green Chemistry.

Prof. Brahmachari serves as the founde
  • Provides fully updated coverage of the field of greener heterocycle synthesis
  • Includes new chapters on varied multicomponent reactions, alongside both traditional and novel approaches
  • Presents information in an accessible style with an emphasis on sustainability

Date de parution :

Ouvrage de 646 p.

15x22.8 cm

Disponible chez l'éditeur (délai d'approvisionnement : 14 jours).

253,24 €

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Thème de Green Synthetic Approaches for Biologically Relevant... :

Mots-clés :

2-hydroxy-1; 4-naphthoquinone; 5; 6-Membered and bridged P-heterocycles; Advanced synthetic techniques; Anatase; Arynes; Ball milling; Benzotriazoles; Bienayme reaction; Biginelli reaction; Biologically active heterocycles; Biologically relevant heterocycles; Blackburn; C–H activation; C–H functionalization; Carbonaceous nanomaterials; Catalyst-free organic transformations; Catalyst-free synthesis; Cavitation; Click reactions; Combinatorial synthesis; Copper catalyzed azide-alkyne cycloaddition (CuAAC); Cycloaddition reactions; Derivatization; Diels-Alder reactions; Dihydropyridines; Dihydropyrimidines; Dipolar cycloadditions; Directing groups; Drug development; Eco-friendly synthesis; Green and sustainable chemistry; Green chemistry; Green solvents; Green synthetic approaches; Green technique; Greener reactions; Groebke; Hantzsch reaction; Heteroaromatic bases; Heterocycles; Heterocyclic compounds; High pressure reactions; Indole; Indoles; Ionic liquids; Late-stage diversification; Lawsone; Mechanochemical reaction; Medicinal chemistry; Medicinal interest; Microwave; Microwave irradiation; Microwave-assisted reactions; Minisci reaction; Molecular dynamics; Multicomponent reaction; Multicomponent reactions; Natural products; Nucleophilic substitution; On-water reactions; Overview; Photocatalysis; Quinolines; Radical chemistry; Reactions; Room temperature; Rutile; Self-catalysis; Solvent-free organic synthesis; Solvent-free reactions; Sunlight; Synthesis; Transition- metals; Transition-metal-free reactions; Triazoles; Ultrasonic irradiation; Ultrasound