Visible Light-Driven Organic Synthesis
Advances in Green and Sustainable Chemistry Series

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Language: English

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568 p. · 15x22.8 cm · Paperback

Visible Light-Driven Organic Synthesis covers the recent cutting-edge investigations in the field of visible light-driven organic synthesis in a single comprehensive volume. It provides information on rigorously selected reaction schemes and covers new reactions and new methods under visible light photocatalysis. It enlists about 200 important synthetic strategies/methodologies with particular emphasis on useful reactions for organic synthesis under the mild reaction conditions reported in recent times involving carbon-carbon (C-C) and carbon-heteroatom bond forming reactions resulting in a wide spectrum of chemical compounds, providing an outstanding source of information concerning industrial applications. The chapters are classified based on various photocatalysts that have found direct applications in organic synthesis by carrying out different kinds of organic reactions. Each chapter is dedicated to a particular photocatalyst, and each selected reaction is dealt with in a compact manner through point-wise discussion under distinct sub-headings covering the reaction type, reaction conditions, bond-forming information reaction strategy involved, general reaction scheme, examples of representative entries with chemical structures and physical properties, a suggested plausible mechanism, experimental procedure, spectral and analytical data of one or two representative entries, critical views, and literature.

1. Introduction
2. Visible Light-Driven Organic Synthesis under Rose Bengal Photocatalysis
3. Visible Light-Driven Organic Synthesis under Eyosin B and Eyosin Y Photocatalysis
4. Visible Light-Driven Organic Synthesis under Ruthenium (Ru)-complexes Photocatalysis
5. Visible Light-Driven Organic Synthesis under Iridium (Ir)-complexes Photocatalysis
6. Visible Light-Driven Organic Synthesis under Various Other Organic Dyes and Metal-complexes Photocatalysis
7. Visible Light-Driven Photocatalyst-free Organic Synthesis
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
  • Includes about 200 visible light-driven protocols in organic synthesis having unique features
  • Provides specific details about experimental conditions, characterization data, and mechanistic aspects
  • Increases efficiency in the laboratory by eliminating time-consuming literature searches and acts as a ready practical reference for reproducing any reactions of choice
  • Contains critical views in each chapter that highlight merits and demerits of the protocol, compare it with previous/other available methods, and describe the green and sustainability aspects of the technique