Asymmetric C-H direct functionalization reactions are one of the most active and fascinating areas of research in organic chemistry due to their significance in the construction of molecular complexity without pre-activation, and the step economy and atom economy features in potential synthetic application. Distinguishing the reactivity among numerous C–H bonds in one single molecule represents one of the most challenging issues in organic synthesis and requires precise reaction design. As such, this field is now receiving increasing attention from researchers. This book provides the first comprehensive review of this field, summarizing the origin, mechanism, scope and applications of the asymmetric C-H bond functionalization reaction. It covers organocatalytic reactions and transition-metal-catalyzed reactions, as well as asymmetric C-H functionalization reactions not described in other books. Written by a leading expert in this field, the book is ideal for postgraduates and researchers working in organic synthesis, catalysis, and organometallic chemistry. Asymmetric C-H direct functionalization reactions are one of the most active and fascinating areas of research in organic chemistry due to their significance in the construction of molecular complexity without pre-activation, and the step economy and atom economy features in potential synthetic application. Distinguishing the reactivity among numerous C H bonds in one single molecule represents one of the most challenging issues in organic synthesis and requires precise reaction design. As such, this field is now receiving increasing attention from researchers. This book provides the first comprehensive review of this field, summarizing the origin, mechanism, scope and applications of the asymmetric C-H bond functionalization reaction. It covers organocatalytic reactions and transition-metal-catalyzed reactions, as well as asymmetric C-H functionalization reactions not described in other books. Written by a leading expert in this field, the book is ideal for postgraduates and researchers working in organic synthesis, catalysis, and organometallic chemistry. Asymmetric C-H direct functionalization reactions are one of the most active and fascinating areas of research in organic chemistry due to their significance in the construction of molecular complexity without pre-activation, and the step economy and atom economy features in potential synthetic application. Distinguishing the reactivity among numerous C H bonds in one single molecule represents one of the most challenging issues in organic synthesis and requires precise reaction design. As such, this field is now receiving increasing attention from researchers. This book provides the first comprehensive review of this field, summarizing the origin, mechanism, scope and applications of the asymmetric C-H bond functionalization reaction. It covers organocatalytic reactions and transition-metal-catalyzed reactions, as well as asymmetric C-H functionalization reactions not described in other books. Written by a leading expert in this field, the book is ideal for postgraduates and researchers working in organic synthesis, catalysis, and organometallic chemistry. Shu-Li You is Professor of Chemistry at the Shanghai Institute of Organic Chemistry, Chinese Academy of Sciences, China. His research interests mainly focus on enantioselective direct C-H bond functionalization and catalytic asymmetric dearomatization (CADA) reaction. Professor You has received numerous awards and is a member of the Advisory Board for several journals, including Chemical Society Reviews , Chemical Communications , Organic & Biomolecular Chemistry , and ACS Catalysis . Asymmetric Functionalization of C-H Bonds By Shu-Li You The Royal Society of Chemistry Copyright © 2015 The Royal Society of Chemistry All rights reserved. ISBN: 978-1-78262-102-7 Contents Chapter 1 Asymmetric C — H Bond Insertion Reactions Wen-Ting Wu, Ze-Peng Yang, and Shu-Li You, 1, Chapter 2 Asymmetric Cross-Dehydrogenative Coupling (CDC) Reactions Shou-Guo Wang and Shu-Li You, 67, Chapter 3 Asymmetric Oxidative Biaryl Coupling Reactions Chao Zheng and Shu-Li You, 92, Chapter 4 Asymmetric [1,5]-Hydride Transfer Reactions Xiao-Wei Liang, Chao Zheng, and Shu-Li You, 126, Chapter 5 Asymmetric Functionalization of C — H Bonds via a Transient Carbon–Metal (C — M) Species De-Wei Gao, Jun Zheng, Ke-Yin Ye, Chao Zheng, and Shu-Li You, 141, Chapter 6 Asymmetric Friedel–Crafts Alkylation Reactions Qiang Kang and Shu-Li You, 214, Chapter 7 N-Heterocyclic Carbene-Catalyzed Asymmetric Functionalization of Aldehyde C — H Bonds Yi Li and Shu-Li You, 283, Chapter 8 Asymmetric Hydroacylation Reactions Qing-Long Xu and Shu-Li You, 358, Chapter 9 Asymmetric Hydrovinylation Reactions Qing-Long Xu and Shu-Li You, 384, Subject Index, 405, CHAPTER 1 Asymmetric C — H Bond Insertion Reactions WEN-TING WU, ZE-PENG YANG, AND SHU-LI YOU 1.1 C —