PrefaceList of ContributorsIntroduction1. (The green oxidative synthesis of) alcohols and phenols2. (The green oxidative synthesis of) carbonyl compounds3. (The green oxidative synthesis of) ethers, esters and organic halides4. (The green oxidative synthesis of) epoxides5. (The green oxidative synthesis of) carboxylic acids6. (The green oxidative synthesis of) amines, amides and imines7. (The green oxidative synthesis of) nitriles8. (The green oxidative synthesis of) diazo, azido, and aromatic azocompounds9. (The green oxidative synthesis of) substituted olefins and alkynes10. (The green oxidative synthesis of) substituted arenes11. (The green oxidative synthesis of) Heterocyclic compounds12. (The green oxidative synthesis of) sulfoxides and sulfones13. The green oxidative C-P, and C-S bond formation14. The recent development of photocatalytic oxidations15. The recent development of electrochemical oxidations16. The recent development of enzymatic oxidation

Ning Jiao is Full Professor at State Key Laboratory of Natural and Biomimetic Drugs, School of Pharmaceutical Sciences, Peking University, China. His current research efforts are focused on developing synthetic methodologies and the application in drug discovery, aerobic oxidation, oxygenation, nitrogenation, and halogenation reactions.Shannon S. Stahl is Steenbock Professor of Chemical Sciences in the Department of Chemistry, University of Wisconsin-Madison, USA. His research group specializes in catalysis, with an emphasis on the catalytic chemistry of molecular oxygen and aerobic oxidation reactions, and electrocatalytic reactions related to chemical synthesis and energy conversion.