Phosgene and related carbonyl halides /

Phosgene, COCl<INF>2</INF> is a C<INF>1</INF> chemical of major industrial importance. The annual production, worldwide, is more than 1 million tons; 90% of which is used in the manufacture of isocyanates and of polyurethane and polycarbonate resins. Phosgene is also extensiv...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Otros Autores: Ryan, T. Anthony
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Amsterdam ; New York : Elsevier, 1996.
Colección:Topics in inorganic and general chemistry ; monograph 24.
Temas:
Phosgene.
Carbonyl halides.
Phosgene
Phosg&#xFFFD;ene.
Halog&#xFFFD;enures de carbonyle.
SCIENCE > Chemistry > Inorganic.
Acceso en línea:Texto completo
Texto completo
Tabla de Contenidos:
  • Cover
  • CONTENTS
  • CHAPTER 1. HISTORY OF PHOSGENE
  • 1.1 PHOTOGENESIS
  • 1.2 QUIESCENCE
  • 1.3 THE STORM APPROACHETH
  • 1.4 REFINEMENTS OF EVIL
  • 1.5 THE STATISTICS OF DEATH
  • 1.6 THE ART OF WAR
  • 1.7 PHOSGENE AND WORLD WAR II
  • 1.8 PHOSGENE AND MODERN WARFARE
  • 1.9 PHOSGENE AND THE MODERN WORLD
  • 1.10 THE KRAKEN WAKES
  • 1.11 ACCURACY AND THE PRESS
  • 1.12 WHY THIS BOOK?
  • CHAPTER 2. BIOLOGICAL ACTIVITY OF PHOSGENE
  • 2.1 SYMPTOMS OF PHOSGENE POISONING
  • 2.2 LUNG STRUCTURE AND FUNCTION
  • 2.3 EFFECTS OF PHOSGENE ON THE RESPIRATORY SYSTEM
  • 2.4 MEASUREMENT OF EXPOSURE DOSE
  • 2.5 ANIMAL EXPERIMENTS
  • 2.6 TREATMENT OF PHOSGENE POISONING
  • 2.7 PHOSGENE AS A PESTICIDE
  • 2.8 THE EFFECTS OF PHOSGENE ON PLANTS, SOILS AND FOODSTUFFS
  • CHAPTER 3. INDUSTRIAL HYGIENE, ANALYTICAL METHODS AND ENVIRONMENTAL ISSUES
  • 3.1 INDUSTRIAL HYGIENE
  • 3.2 ANALYTICAL METHODS FOR THE DETERMINATION OF PHOSGENE
  • 3.3 SOURCES OF PHOSGENE EMISSION
  • 3.4 TREATMENT OF LIQUID PHOSGENE SPILLAGES
  • 3.5 CASE REPORTS OF PHOSGENE POISONING
  • 3.6 CATASTROPHIC EMISSIONS
  • 3.7 ENVIRONMENTAL CONSIDERATIONS
  • CHAPTER 4. INDUSTRIAL MANUFACTURE AND USES
  • 4.1 INDUSTRIAL MANUFACTURE
  • 4.2 PURIFICATION OF COMMERCIAL PHOSGENE
  • 4.3 STORAGE
  • 4.4 TREATMENT OF PHOSGENE EFFLUENTS
  • 4.5 ENGINEERING PRACTICES
  • 4.6 ASSAYING
  • 4.7 INDUSTRIAL USES
  • CHAPTER 5. SYNTHESIS AND FORMATION OF PHOSGENE
  • 5.1 SYNTHESIS OF PHOSGENE FROM CARBON MONOXIDE
  • 5.2 SYNTHESIS OF PHOSGENE FROM HALOGENATED HYDROCARBONS
  • 5.3 SYNTHESIS OF PHOSGENE FROM CARBONACEOUS MATERIALS
  • 5.4 SYNTHESIS OF PHOSGENE FROM CARBON DIOXIDE, CARBONYL SULFIDE OR CARBON DISULFIDE
  • 5.5 SYNTHESIS OF PHOSGENE FROM OTHER CARBONYL HALIDES
  • 5.6 SYNTHESIS OF PHOSGENE FROM OXYGENATES (OXYGEN-CONTAINING ORGANIC COMPOUNDS)
  • 5.7 SYNTHESIS OF PHOSGENE BY MISCELLANEOUS METHODS
  • 5.8 SYNTHESIS OF LABELLED PHOSGENE
  • CHAPTER 6. THERMODYNAMIC AND PHYSICAL PROPERTIES
  • 6.1 THERMOCHEMICAL PROPERTIES
  • 6.2 THERMAL PROPERTIES
  • 6.3 MECHANICAL PROPERTIES
  • 6.4 OPTICAL PROPERTIES
  • 6.5 ELECTRICAL AND MAGNETIC PROPERTIES
  • 6.6 SOLUBILITY AND VAPOUR-LIQUID EQUILIBRIA
  • CHAPTER 7. STRUCTURAL AND SPECTROSCOPIC PROPERTIES
  • 7.1 STRUCTURAL DETERMINATIONS
  • 7.2 VIBRATIONAL SPECTROSCOPY
  • 7.3 NUCLEAR MAGNETIC RESONANCE SPECTROSCOPY
  • 7.4 NUCLEAR QUADRUPOLE RESONANCE SPECTROSCOPY
  • 7.5 MASS SPECTROMETRY
  • CHAPTER 8. DISSOCIATION, DISMUTATION AND PHOTOCHEMISTRY OF PHOSGENE
  • 8.1 DISSOCIATION OF PHOSGENE
  • 8.2 DISMUTATION OF PHOSGENE
  • 8.3 PHOTOCHEMISTRY OF PHOSGENE
  • CHAPTER 9. REACTIONS WITH INORGANIC COMPOUNDS
  • 9.1 MAIN GROUP HALIDES AND OXIDE HALIDES
  • 9.2 TRANSITION METAL HALIDES AND OXIDE HALIDES
  • 9.3 LANTHANIDE AND ACTINIDE HALIDES AND OXIDE HALIDES
  • 9.4 MAIN GROUP OXIDES AND SULFIDES
  • 9.5 TRANSITION METAL OXIDES AND SULFIDES
  • 9.6 LANTHANIDE AND ACTINIDE OXIDES
  • 9.7 MAIN GROUP ELEMENTS
  • 9.8 TRANSITION ELEMENTS AND ACTINIDES
  • 9.9 ORGANOMETALLICS
  • 9.10 HYDRIDE DE.

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