| Name: |
Special Subject of Polymer Chemistry |
| Catalog Number: |
412044Y |
Hours/Credits: |
40/2 |
| Prerequisite(s): |
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Polymer Chemistry, Polymer Physics and Organic Chemistry |
| Course Description: |
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The course is designed for the students who specialize in polymer chemistry and polymer physics. To introduce new materials, new method, new development direction of application technology in some important specialties of international polymer chemistry for Mater candidates and Doctor candidates. It will help students expand professional knowledge and improve their thinking and problem- solving ability in scientific research. There isn’t fixed teaching materials because some different teachers will teach this course and course content will modify every time according to the development of subject. The students should listen to the teacher carefully and take notes in class. |
| Course Content: |
|
1. Heat-resistant polymeric materials
Chapter 1 Introduction
Concept and Characteristics; Molecular structure and molecular design of heat-resistant polymer; Classification and property of heat-resistant polymer; Application of heat-resistant polymer in civilian industry, agriculture, micro-electronics and aerospace industry
Chapter 2 Research progress in heat-resistant polymer for optoelectronic materials (1)
Micro-electronics packaging technology and overview of materials; The property and application of heat-resistant polymer for micro optoelectronic device packaging; Development history, preparation method, structural feature and characterization of polyimide; Molecular design and adjustment of optoelectronic property of polyimide used for optoelectronic device packaging.
Chapter 3 Research progress in heat-resistant polymer for optoelectronic materials (2)
Preparation, structural feature and characterization of epoxy resin; Molecular design and dielectric property, heat resistant property, mechanical property and flame retardant property of epoxy resin used for optoelectronic device packaging; Application of epoxy resin in optoelectronic device packaging.
Chapter 4 high temperature resistant polymer and its complexes
Heat resistant property of high temperature resistant polymer and its complexes and application in civilian industry and aerospace industry; Melting property of high temperature resistant polymer and molding process of complex materials; Classification and preparation of thermoplastic polymer and thermosetting polymer; Molecular design, thermostability and the realization of high temperature mechanical property of polyimide.
2. Biomedical polymer
Chapter 1 Basic concept
Classification of biological materials and biomedical polymer; Biocompatibility and its evaluation of biological materials
Chapter 2 Anti-clotting polymer and blood substitutes
Composition of blood; Biocompatibility and influencing factors; Artificial blood and blood substitutes
Chapter 3 Biodegradable polymer
Classification, structural feature, degradation and characterization of biodegradable polymer; Important biodegradable polymer; Synthesis and modification of polylactone; Application of biodegradable polymer in biomedical field
Chapter 4 Drug delivery system
Composition of drug delivery system; Development of drug delivery system; Influence of carrier on the drug release behavior; Nano drug delivery system
Chapter 5 Tissue engineering
The three elements of tissue engineering; Preparation of scaffold and surface modification technology; Growth factor; Biomimetic scaffold materials; Examples in tissue engineering
3. Conductive polymer
Chapter 1 Structure, property and preparation of conductive polymer
Introduction; The structure of conductive polymer; conductive property; Spectral characteristics; Solubility; Preparation method; Application prospect
Chapter 2 Electrochemistry of conductive polymer
Several important electrochemical methods: Cyclic voltammetry; AC impedance method; Electrochemistry and quartz crystal microbalance
Electrochemical synthesis of conductive polymer: Electrochemical polymerization method; Electrochemical synthesis of polypyrrole and electrochemical polymerization mechanism; Electrochemical synthesis of polyaniline and polythiophene.
Electrochemical property of conductive polymer: Electrochemical property of polypyrrole; Electrochemical property of polyaniline and polythiophene.
Electrochemical measurement of HOMO and LUMO energy levels of conjugated polymer
Chapter 3 Conjugated polymer optoelectronic materials and devices
Light emitting polymer materials; Polymer light-emitting diode ( PLED ); Polymer light-emitting electrochemical cell ( LEC) ; Polymer photovoltaic materials and polymer solar cells; Optoelectronic materials and devices based on conjugated polymer/inorganic semiconductor nanocrystals hybrid |
| TextBooks: |
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|
| Reference: |
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1. Qifeng Zou, High temperature resistant polymer and complexes: synthesis, application and progress, Chemical industry press.
2. Mengxian Ding, Polyimide: relationship between chemical structure and property and materials, Science press.
3. Zhongxian Sun, Electronic chemicals, Chemical industry press.
4. Yaoting Yu, Biomedical materials, Tianjing university press.
5. JS Temenoff, AG Mikos, Biomaterials: The Intersection of Biology
and Materials Science, Pearson-Prentice Hall.
6. Yubao Li, Biomedical materials, Chemical industry press. |
