Advances in heterocyclic chemistry. Volume 115 /

Advances in Heterocyclic Chemistry is the definitive series in this area-one of great importance to organic chemists, polymer chemists, and many biological scientists. As the disciplines of biology and organic chemistry increasingly intersect, the nomenclature of organic chemistry is increasingly us...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Otros Autores: Scriven, Eric F. V. (Editor ), Ramsden, Christopher A., 1946- (Editor )
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Waltham, MA : Academic Press, 2015.
Edición:First edition
Temas:
Heterocyclic chemistry.
Chimie des compos�es h�et�erocycliques.
SCIENCE / Chemistry / Organic
Heterocyclic chemistry
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Front Cover; Advances in Heterocyclic Chemistry; Copyright; Contents; Contributors; Preface; Iodine Heterocycles; 1. Introduction; 2. General Overview of Organic Polyvalent Iodine Compounds; 2.1 Classification and Nomenclature; 2.2 Hypervalent Bonding and General Structural Features; 3. Preparation, Structure, and Properties of Iodine Heterocycles; 3.1 Cyclic Iodonium Salts and Ylides; 3.2 Trivalent Iodine Heterocycles; 3.2.1 Iodoxolones; 3.2.2 Benziodoxoles; 3.2.2.1 Halobenziodoxoles; 3.2.2.2 Hydroxybenziodoxoles; 3.2.2.3 Organosulfonate Derivatives of Benziodoxoles
  • 3.2.2.4 Alkylperoxybenziodoxoles3.2.2.5 Azidobenziodoxoles; 3.2.2.6 Amidobenziodoxoles; 3.2.2.7 Cyanobenziodoxoles; 3.2.2.8 Alkynylbenziodoxoles; 3.2.2.9 Arylbenziodoxoles; 3.2.2.10 Phosphoranyl-Derived Benziodoxoles; 3.2.2.11 Perfluoroalkylbenziodoxoles; 3.2.2.12 Isocyanate-Derived Benziodoxoles; 3.2.3 Benziodazoles; 3.2.4 Benziodoxaboroles; 3.2.5 Benziodoxathioles; 3.2.6 Benziodothiazoles; 3.2.7 Benziodoxaphospholes; 3.2.8 Six-membered Iodine(III) Heterocycles; 3.2.9 Polycyclic Heterocycles with an Iodine(III) Atom at a Ring Junction; 3.2.10 Pseudocyclic Iodine(III) Compounds
  • 3.3 Iodine(V) Heterocycles3.3.1 Five-Membered Iodine(V) Heterocycles with an Oxygen Atom in the Ring; 3.3.2 Five-Membered Iodine(V) Heterocycles with a Sulfur Atom in the Ring; 3.3.3 Six-Membered Iodine(V) Heterocycles; 3.3.4 Polycyclic Heterocycles with an Iodine(V) Atom at a Ring Junction; 3.3.5 Pseudocyclic Iodine(V) Compounds; 4. Iodine Heterocycles as Reagents in Organic Synthesis; 4.1 Benziodoxoles as Atom-Transfer Reagents; 4.2 Oxidations with Iodine(V) Heterocycles; 4.2.1 Oxidations with IBX; 4.2.2 Oxidations with DMP; 4.2.3 Oxidations with Pseudocyclic Iodine(V) Compounds; References
  • Recent Advances in the Synthesis of Heterocyclic Compounds Using Flash Vacuum PyrolysisaaDedicated to the memory of two maj ...1. Introduction; 2. Three-Membered Rings; 2.1 Azirines; 2.2 Oxiranes; 2.3 Diazirinone; 2.4 Dithiiranes; 3. Four-Membered Rings; 3.1 Thietes; 3.2 Dithietes; 4. Five-Membered Rings; 4.1 Pyrroles, Pyrrolidines, and Ring-Fused Derivatives; 4.2 Furans and Ring-Fused Derivatives; 4.3 Thiophenes and Ring-Fused Derivatives; 4.4 Pyrazoles, Imidazoles, and Ring-Fused Derivatives; 4.5 Isoxazoles, Oxazoles, and Ring-Fused Derivatives
  • 4.6 Isothiazoles, Thiazoles, and Ring-Fused Derivatives4.7 Dioxolanes and Ring-Fused Derivatives; 4.8 Dithioles and Ring-Fused Derivatives; 4.9 Triazoles and Ring-Fused Derivatives; 4.10 Oxadiazoles; 5. Six-Membered Rings; 5.1 Pyridines, Piperidines, and Ring-Fused Derivatives; 5.2 Pyrans and Ring-Fused Derivatives; 5.3 Thiopyrans and Ring-Fused Derivatives; 5.4 Diazines and Ring-Fused Derivatives; 5.5 Oxazines and Ring-Fused Derivatives; 5.6 Benzoxaphosphinines; 5.7 Dioxinones; 5.8 Dithiins; 5.9 Triazines and Ring-Fused Derivatives; 6. Seven-Membered Rings

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