Goutam Brahmachari is a professor of organic chemistry at Visva-Bharati, India, and teaches courses in organic chemistry, natural products chemistry, synthetic organic chemistry, and physical methods in organic chemistry. In addition to over 20 years of teaching and research experience, he is a Fellow of the Royal Society of Chemistry, a Who's Who in the World Listee, and a recipient of Academic Brilliance Award (2015) for Excellence in Research and the Dr. Kalam Best Teaching Faculty Award (2017). Prof. Brahmachari serves as journal referee, editor-in-chief, associate editor, guest editor, and Editorial Advisory Board Member for several international journals, book publishers, and research funding agencies. He currently has 200 publications in the fields of organic and medicinal chemistry, including 22 books and over 40 book chapters, published by internationally reputed publishers.
Carbon - Carbon Bond Forming Reactions at Room Temperature
Carbon - Nitrogen Bond Forming Reactions at Room Temperature
Carbon - Oxygen Bond Forming Reactions at Room Temperature
Carbon - Sulfur Bond Forming Reactions at Room Temperature
Carbon - Phosphorus Bond Forming Reactions at Room Temperature
Carbon - Halogen Bond Forming Reactions at Room Temperature
Carbon - Fluorine Bond Forming Reactions
Carbon - Iodine Bond Forming Reactions
Carbon - Boron Bond Forming Reactions at Room Temperature
Miscellaneous Bond Forming Reactions at Room Temperature
Carbon - Hydrogen Bond Forming Reaction
Nitrogen - Hydrogen Bond Forming Reaction
Oxygen - Silicon Bond Forming Reactions
Sulfur - Nitrogen Bond Forming Reaction
Sulfur - Oxygen Bond Forming Reactions
Sulfur - Sulfur Bond Forming Reactions
Filling a gap in the scientific literature, Room Temperature Organic Synthesis is unique in its authoritative, thorough, and applied coverage of a wide variety of "green" organic synthetic methodologies. The book describes practical, feasible protocols for room temperature reactions to produce carbon-carbon and carbon-heteroatom bond formations including aliphatic, aromatic, alicyclic, heterocycles, and more. Consistently organized for easy access, each selected reaction is discussed in a very compact and structured manner including: reaction type, reaction condition, reaction strategy, catalyst, keywords, general reaction scheme, mechanism (in selected cases), representative entries, experimental procedure, characterization data of representative entries, and references. This book will be a valuable resource for synthetic organic, natural products, medicinal, and biochemists as well as those working in the pharmaceutical and agrochemical industry.