Iodine Catalysis in Organic Synthesis
Herausgegeben:Ishihara, Kazuaki; Muñiz, Kilian
Iodine Catalysis in Organic Synthesis
Herausgegeben:Ishihara, Kazuaki; Muñiz, Kilian
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Written by leading experts, this unique book covers the state-of-the-art of iodine catalysis as an environmentally sustainable alternative to transition metal catalysis, including case studies and industrial applications.
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Written by leading experts, this unique book covers the state-of-the-art of iodine catalysis as an environmentally sustainable alternative to transition metal catalysis, including case studies and industrial applications.
Produktdetails
- Produktdetails
- Verlag: Wiley-VCH
- Artikelnr. des Verlages: 1134829 000
- 1. Auflage
- Seitenzahl: 448
- Erscheinungstermin: 2. Februar 2022
- Englisch
- Abmessung: 248mm x 174mm x 27mm
- Gewicht: 1004g
- ISBN-13: 9783527348299
- ISBN-10: 3527348298
- Artikelnr.: 62588771
- Verlag: Wiley-VCH
- Artikelnr. des Verlages: 1134829 000
- 1. Auflage
- Seitenzahl: 448
- Erscheinungstermin: 2. Februar 2022
- Englisch
- Abmessung: 248mm x 174mm x 27mm
- Gewicht: 1004g
- ISBN-13: 9783527348299
- ISBN-10: 3527348298
- Artikelnr.: 62588771
Kazuaki Ishihara is full professor at Nagoya University, Japan, since 2002. His research interests include the development of high performance catalysts based on acid-base combination chemistry and organocatalysts for selective oxidative reactions based on halogen redox chemistry. He currently serves on the editorial advisory boards of "European Journal of Organic Chemistry" (Wiley), "Asian Journal of Organic Chemistry" (Wiley), "Letters in Organic Chemistry" (Bentham), and "Topics in Current Chemistry" (Springer). He has (co-)authored more than 350 articles and one book (Acid Catalysis in Modern Organic Synthesis, 2008, Wiley). Kilian Muñiz was a ICREA Research Professor and Group Leader at the Institute of Chemical Research of Catalonia (ICIQ) in Tarragona, Spain. He passed away unexpectedly in March 2020. He was widely recognized for his work on the development of new chemical transformations for the selective construction of carbon-nitrogen bonds. He served as the vice-president of the Organic Section of the Royal Spanish Society of Chemistry and on the advisory boards of "Advanced Synthesis and Catalysis" (Wiley), "The Chemical Record" (Wiley), and the "Journal of Organic Chemistry" (ACS). He has (co-)authored more than 150 scientific publications.
Historical Introduction
Concepts in Iodine Catalysis
Catalysis by Halogen Bonding Based on Iodine
Catalytic Transformations with R4Nl Catalyst Precursors
Catalytic Transformations Based on Iodine(I) Involving Radical Pathways
Aromatic C-H Functionalization
Design of Chiral Organoiodine(I/III) Catalyst for Asymmetric Oxidative
Catalytic Dearomatization Reactions (Focus on Enantioselective)
Catalytic Alkene Difunctionalization Reactions (Focus on Enantioselective)
Catalytic Oxidative Alpha-Functionalization of Carbonyls (Focus on Enantioselective)
Oxidations with Iodine(V) Compounds - from Stoichiometric Compounds to Catalysts
Sustainable Methods in Hypervalent Iodine Chemistry
Industrial Application of Iodine Catalysis
Concepts in Iodine Catalysis
Catalysis by Halogen Bonding Based on Iodine
Catalytic Transformations with R4Nl Catalyst Precursors
Catalytic Transformations Based on Iodine(I) Involving Radical Pathways
Aromatic C-H Functionalization
Design of Chiral Organoiodine(I/III) Catalyst for Asymmetric Oxidative
Catalytic Dearomatization Reactions (Focus on Enantioselective)
Catalytic Alkene Difunctionalization Reactions (Focus on Enantioselective)
Catalytic Oxidative Alpha-Functionalization of Carbonyls (Focus on Enantioselective)
Oxidations with Iodine(V) Compounds - from Stoichiometric Compounds to Catalysts
Sustainable Methods in Hypervalent Iodine Chemistry
Industrial Application of Iodine Catalysis
Historical Introduction
Concepts in Iodine Catalysis
Catalysis by Halogen Bonding Based on Iodine
Catalytic Transformations with R4Nl Catalyst Precursors
Catalytic Transformations Based on Iodine(I) Involving Radical Pathways
Aromatic C-H Functionalization
Design of Chiral Organoiodine(I/III) Catalyst for Asymmetric Oxidative
Catalytic Dearomatization Reactions (Focus on Enantioselective)
Catalytic Alkene Difunctionalization Reactions (Focus on Enantioselective)
Catalytic Oxidative Alpha-Functionalization of Carbonyls (Focus on Enantioselective)
Oxidations with Iodine(V) Compounds - from Stoichiometric Compounds to Catalysts
Sustainable Methods in Hypervalent Iodine Chemistry
Industrial Application of Iodine Catalysis
Concepts in Iodine Catalysis
Catalysis by Halogen Bonding Based on Iodine
Catalytic Transformations with R4Nl Catalyst Precursors
Catalytic Transformations Based on Iodine(I) Involving Radical Pathways
Aromatic C-H Functionalization
Design of Chiral Organoiodine(I/III) Catalyst for Asymmetric Oxidative
Catalytic Dearomatization Reactions (Focus on Enantioselective)
Catalytic Alkene Difunctionalization Reactions (Focus on Enantioselective)
Catalytic Oxidative Alpha-Functionalization of Carbonyls (Focus on Enantioselective)
Oxidations with Iodine(V) Compounds - from Stoichiometric Compounds to Catalysts
Sustainable Methods in Hypervalent Iodine Chemistry
Industrial Application of Iodine Catalysis