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Strategies for Palladium-Catalyzed Non-directed and Directed C-H Bond Functionalization portrays the complete scope of these two aspects of C-H bond functionalization in a single volume for the first time. Featured topics include the influence of palladacyclic systems in C-H bond functionalization (need for newer catalytic systems for better efficiency), mechanistic aspect of the functionalization strategies leading to better systems, and applications of these methodologies to natural product synthesis and material synthesis.
- Addresses the involvement of catalytic systems (palladacycles) for better functionalization of (hetero)arenes to emphasize the need for developing better, more selective systems
- Covers the use of powerful mechanistic tools for understanding and assisting the development of better functionalization strategies
- Discusses the finer aspects of C-H bond functionalization, such as control of regioselectivity with or without directing groups
- Includes a chapter detailing the synthesis of naturally occurring molecules or functional molecules via both pathways for assessing the applicability of the functionalization strategies
Graduate level students, postdocs, and faculty active in transition metal-based catalysis
- Introductory chapter on C-H bond functionalization
2. Oxidative Coupling of Aromatic C-H Bonds
3. Directed C-H bond functionalization of heteroarenes
4. Non-directed C-H bond functionalizations of heteroarenes
5. Palladium-Catalyzed Arylation (or Functionalization in general) of Unactivated spz C–H bond
6. C-H bond functionalization at the benzene core of indoles and indolines (excluding C-2 and C-3)
7. Palladium Catalyzed Carbonylative and Carboxylative C-H Functionalization Reactions: Importance and Role of Regioselectivity
8. Flow Chemistry Perspective for C-H Bond Functionalizations
9. Meta selectivity in Directed C-H bond functionalizations
10. Aliphatic distal C-H activation
11. Palladacycles for Directed and Non-Directed C-H bond Functionalization of Heteroarenes
12. Mechanistic Aspect of Directed and Non-Directed C-H Bond Functionalizations
13. Total Synthesis of Natural Products by C-H Activation
- No. of pages:
- © Elsevier 2017
- 25th May 2017
- Paperback ISBN:
- eBook ISBN:
Anant Kapdi studied chemistry at the University of Mumbai (MSc 2002) and York (MSc 2005; Dr. Ian J. S. Fairlamb). He completed his PhD in 2008 under the supervision of Dr. Fairlamb at York University, before starting postdoctoral work in the research group of Prof. Lutz Ackermann at the Georg-August-University Gottingen as an Alexander von Humboldt fellow. He returned to India in 2010 and was appointed as DST-SERC Fast Track Fellow (2011) and DST Inspire Faculty (2012) at the Institute of Chemical Technology before taking up UGC-FRP Assistant Professor position (2013). He has been a recipient of Alexander von Humboldt equipment grant as well as research cooperation grant. Recently, he was selected as the Young Associate of Maharashtra Academy of Sciences. The unifying theme of his research program is the development of Sustainable catalytic solutions for challenging synthetic problems.
Institute of Chemical Technology, Mumbai, India
Debabrata Maiti received his MSc in 2003 from the Indian Institute of Technology (IIT), Bombay, and his PhD from Johns Hopkins University in 2008. He has taught at IIT since December 2010 and has been the recipient of several awards, including the NASI Young Scientist Platinum Jubilee Award (2013), IAS-Young Associate (2013), IIT Bombay-IRCC Young Scientist Award (2013), Thieme Chemistry Journal Award (2013), CRSI Young Scientist Award (2014), AVRA Young Scientist Award (2014), ISCB Young Scientist Award (2014), and INSA-Young Scientist Award (2014). His research interests include development of transition-metal mediated reactions and bioinspired catalysis.
Indian Institute of Technology, Bombay, India
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