Description
Book SynopsisMimicking nature's efficiency and sustainability in organic chemistry is a major goal for future chemists; redox reactions are a key element in a variety of fields ranging from synthesis and catalysis to materials chemistry and analytical applications. Sustainability is increasingly becoming a consideration in synthesis and functional chemistry and an essential element for the next generation of chemistry in academia and industry. This book represents a compilation of the latest advancements in functional redox chemistry and demonstrates its importance in achieving a more sustainable future. This book is an ideal companion for any postgraduate students or researchers interested in sustainability in academia and industry.
Table of ContentsRedox-mediated Electrochemical Cyclization Reactions; Recent Advances in the Kolbe and Non-Kolbe Electrolysis of Carboxylic Acids; Novel Electrolytic Processes; A Sugar Machine; Vanadium(V)-induced Oxidative Cross-coupling of Enolate Species; Mediated Electron Transfer in Electrosynthesis: Concepts, Applications, and Recent Influences from Photoredox Catalysis; Synergy of Electrochemistry and Asymmetric Catalysis; Alternative Approaches for Scalable Artificial Photosynthesis via Sustainable Redox Processes; Bioinspired Catalyst Learned from B12-dependent Enzymes; Redox-active Molecules and Their Energy Device Application; Redox-active Polymeric Materials; Chiral Metal Electrodes for Enantioselective Analysis, Synthesis, and Separation; Fluorescent Sensors for Water; Photoredox Chemistries of Cyclometalated Ir(III) Complexes; Electrogenerated Chemiluminescence in Functional Redox Chemistry
