Synopses & Reviews
This laboratory manual provides a comprehensive introduction to an array of important techniques for polymer synthesis and characterization. The experiments are designed to be completed in one laboratory period using limited quantities of materials to reduce the costs and disposal problems, and were reviewed for classroom use at Polytechnic University. Students will benefit from the clear writing style and straightforward approach to concepts and procedures, while more advanced readers will appreciate the emphasis on fundamental principles and references to more in-depth explanations of the techniques. Polymer Synthesis and Characterization will serve as a unified laboratory manual for university courses as well as professional training courses in polymer science.
Key Features
*Combines the extensive industrial and teaching experience of the authors
*Introduces the user to the concept of "Good Manufacturing Pracitce"
*Presents experiments that are representative of a wide variety of polymerization and characterization methods
*Includes numerous references for more advanced students, technicians, and researchers
Review
important techniques for polymer synthesis and characterization. A very positive feature is the clear writing style and the straightforward approach to concepts and procedures."
--ANGEWANDTE CHEMIE, Vol. 38, No. 18, 1999
Review
"...recommended for organizers of practical courses in polymer chemistry and for the students taking part in these courses. It provides useful advice on planning and managing appropriate experiments, and gives a comprehensive introduction to important techniques for polymer synthesis and characterization. A very positive feature is the clear writing style and the straightforward approach to concepts and procedures."
--ANGEWANDTE CHEMIE, Vol. 38, No. 18, 1999
Synopsis
This laboratory manual covers important techniques for polymer synthesis and characterization, and provides newcomers with a comprehensive introduction to the basic principles of highlighted techniques. The reader will benefit from the clear writing style and straightforward approach to fairly complex ideas. The book also provides references that the more advanced reader can use to obtain in-depth explanations of techniques.
Polymer Synthesis and Characterization will serve as a useful resource for industrial technicians and researchers in polymer chemistry and physics, material science, and analytical chemistry.
Key Features
* Combines the extensive industrial and teaching experience of the authors
* Introduces the user to the concept of "Good Manufacturing Practice"
* Presents experiments that are representative of a wide variety of polymerization and characterization methods
* Includes numerous references for more advanced students, technicians, and researcher
Synopsis
This laboratory manual covers important techniques for polymer synthesis and characterization, and provides newcomers with a comprehensive introduction to the basic principles of highlighted techniques. The reader will benefit from the clear writing style and straightforward approach to fairly complex ideas. The book also provides references that the more advanced reader can use to obtain in-depth explanations of techniques.
Polymer Synthesis and Characterization will serve as a useful resource for industrial technicians and researchers in polymer chemistry and physics, material science, and analytical chemistry.
Key Features
* Combines the extensive industrial and teaching experience of the authors
* Introduces the user to the concept of "Good Manufacturing Practice"
* Presents experiments that are representative of a wide variety of polymerization and characterization methods
* Includes numerous references for more advanced students, technicians, and researcher
Synopsis
ion and characterization methods
*Includes numerous references for more advanced students, technicians, and researchers
Synopsis
This laboratory manual covers important techniques for polymer synthesis and characterization, and provides newcomers with a comprehensive introduction to the basic principles of highlighted techniques. The reader will benefit from the clear writing style and straightforward approach to fairly complex ideas. The book also provides references that the more advanced reader can use to obtain in-depth explanations of techniques.
Polymer Synthesis and Characterization will serve as a useful resource for industrial technicians and researchers in polymer chemistry and physics, material science, and analytical chemistry.
Key Features
* Combines the extensive industrial and teaching experience of the authors
* Introduces the user to the concept of "Good Manufacturing Practice"
* Presents experiments that are representative of a wide variety of polymerization and characterization methods
* Includes numerous references for more advanced students, technicians, and researcher
Synopsis
e advanced students, technicians, and researchers
Synopsis
cludes numerous references for more advanced students, technicians, and researchers
About the Author
Dr. Stanley R. Sandler won the R&D 100 Award offered by the industry in 1990 for a significant commercial process to prepare an important organic intermediate. In addition to this honor, he has over 100 publications involving patents, books, an encyclopedia article, several journal articles, and he is currently a referee for several journals. Sandler received his Ph.D. in Organic Chemistry from Penn State University.Wolf Karo was a winner of the Westinghouse Science Talent Search. He holds a number of patents, and has been active in developing applications of monodispersed microspheres in diagnostic testing and other areas of biotechnology. Karo received his Ph.D. in Organic Chemistry from Cornell University.
Polytechnic University
Table of Contents
Polymer Syntheses: A. Polymerization of Styrene: Experiment 1: Preparation of Polystyrene by the Free Radical Polymerization Process. Experiment 2: Preparation of Polystyrene by the Emulsion Polymerization Process. Experiment 3: Preparation of Polystyrene by the Anionic Polymerization Method. Experiment 4: Preparation of Polystyrene by the Cationic Polymerization Process.
B. Polymerization of Acrylic Esters: Experiment 5: Bulk Photopolymerization of Methyl Methacrylate: A Test Tube Demonstration. Experiment 6: Suspension Polymerization of Methyl Methacrylate. Experiment 7: Redox Emulsion Polymerization of Ethyl Acrylate.
C. Polyamides: Experiment 8: Preparation of Poly(hexamethylene sebacamide)(Nylon 6-10) by the Interfacial Polymerization Technique.
D. Polyesters: Experiment 9: Preparation of Poly(1,4-butylene isophthalate).
E. Epoxy Resins: Experiment 10: Preparation of A Cured Epoxy Resin by the Room Temperature Reaction ofBisphenol A Diglycidyl Ether with Polyamines.
F. Vinyl Acetate Polymers and Reactions: Experiment 11: Seed Emulsion Terpolymerization of Vinyl Acetate, Butyl Acrylate, and Vinyl Neodecanoate with Gradual Monomer and Initiator Additions. Experiment 12: Preparation of Poly(vinyl alcohol) by the Alcoholysis of Poly(vinyl Acetate).
Polymer Characterization: Experiment 13: Nuclear Magnetic Resonance. Experiment 14: Infrared Spectroscopy. Experiment 15: Thermogravimetric Analysis. Experiment 16:Differential Scanning Calorimetry. Experiment 17: Dilute Solution Viscosity of Polymers. Experiment 18: Gel Permeation Chromatography. Experiment 19: Light Scattering. Experiment 20: End Group Analysis. Experiment 21: X-Ray Diffraction. Experiment 22: Optical Microscopy. Experiment 23: Dynamic Mechanical Analysis. Subject Index.