Polymer films : properties, performance and applications /

Detalles Bibliográficos
Clasificación:Libro Electrónico
Otros Autores: Romano, Stefan A. (Editor ), Somners, George P. (Editor )
Formato: Electrónico eBook
Idioma:Inglés
Publicado: New York : Nova/Nova Science Publishers, Inc., [2012]
Colección:Materials science and technologies series.
Temas:
Plastic films.
Polymers.
Polymerization.
Coatings.
Pellicules plastiques.
Polymères.
Polymérisation.
Revêtements.
polymers.
polymerization.
coating (material)
TECHNOLOGY & ENGINEERING > Chemical & Biochemical.
Coatings
Plastic films
Polymerization
Polymers
Acceso en línea:Texto completo
Tabla de Contenidos:
  • POLYMER FILMS; PROPERTIES, PERFORMANCE AND APPLICATIONS; MATERIALS SCIENCE AND TECHNOLOGIES; Library of Congress Cataloging-in-Publication Data; CONTENTS; PREFACE; ELECTROPOLYMERIZATION AS THE METHOD OF PRODUCING FUNCTIONAL POLYMER FILMS AND COATINGS; ABSTRACT; 1. INTRODUCTION; 2. FUNDAMENTALS OF POLYMER FILMS FORMATION ON ELECTROCONDUCTING SURFACES USING THE MONOMER EIP METHOD; 3. PECULIARITIES OF EIP MECHANISM AND KINETICS; 4. GENERAL REGULARITIES OF FILM FORMATION ON ELECTRODE SURFACE; 5. MONOMER COMPOSITIONS FOR EIP.
  • 6. MECHANISM AND KINETICS OF FILM FORMATION AT ELECTROCOPOLYMERIZATION OF ACRYLIC ACID, ACRYLAMIDE AND FORMALDEHYDE6.1. A Role of Complexes in Formation of the Polymer Film [64]; 6.2. DEPENDENCE OF THE DEPOSITION RATE AND POLYMER FILM QUALITY ON THE MONOMER AND INITIATOR CONCENTRATIONS AND ELECTROLYSIS CONDITIONS; 6.3. EFFECT OF ADDITIVES ON POLYMER DISTRIBUTION BETWEEN THE ELECTRODE SURFACE AND SOLUTION; 6.4. USE OF NON-STATIONARY ELECTROLYSIS CONDITIONS IN OPTIMIZATION OF COATINGS FORMATION ON METAL; 6.5. A ROLE OF HYDROQUINONE IN EIP FILM FORMATION ON METAL.
  • 7. PHYSICAL-CHEMICAL REGULARITIES OF POLYMER FILMS FORMATION AT ELECTROCOPOLYMERIZATION OF ACRYLAMIDE AND FORMALDEHYDE IN THE AQUEOUS MEDIUM7.1. Initiation Mechanism of Polymerization of Acrylamide and Formaldehyde in the Aqueous Medium by the EIP Method; 7.2. Effect of Electrode Potential, Zinc Chloride Concentration, and pH on Film Formation Kinetics; 7.3. Kinetics of Formation of Poly-AA-F Films; 8. FORMATION OF POLYMER FILMS FROM AQUEOUS SOLUTION OF N-METHYLOLACRYLAMIDE [132]; 9. PRINCIPLES OF THE POLYMER LAYER FORMATION IN THE PROCESS OF EIP [98]
  • 10. CURRENT-VOLTAGE CHARACTERISTICS OF ELECTRODE MODIFIED BY THE POLYMER FILM [43, 133, 134]11. IN SITU STUDY OF ELECTROPOLYMERIZATION KINETICS OF ACRYLAMIDE, FORMALDEHYDE, AND N, N'-METHYLENEBISACRYLAMIDE [136]; 11.1. Using High-Resolution Videomicroscopy for Research of Polymerizations Kinetics; 11.2. Postpolymerization Effect; 11.3. Contact Polymerization of Acrylamide on the Zinc Surface; 11.4. Condensation of Polymer Film during EIP; 11.5. Induction Period of Electropolymerization.
  • 12. SYNTHESIS OF ULTRAFILTRATION MEMBRANES BY ELECTROCHEMICALLY INITIATED POLYMERIZATION OF ACRYLIC MONOMERS [22, 23, 141]13. PROPERTIES OF ELECTROSYNTHESIZED ULTRAFILTRATION MEMBRANES AND FIELDS OF THEIR PRACTICAL APPLICATION [42, 44]; 14. THE OVERALL POROSITY AND PORE SIZES OF ELECTROSYNTHESIZED ULTRAFILTRATION MEMBRANES [141]; 15. STRUCTURAL AND MORPHOLOGICAL INVESTIGATION OF ELECTROCHEMICALLY SYNTHESIZED ACRYLIC POLYMERIC FILMS [45, 140]; 15.1. Structure of the Polymer Film; 15.2. The Crystalline Structure of Acrylamide; 15.3. The Morphology of the Membrane Surface.

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