Polymer Chemistry
"A Practical Approach"
The Book Of Polymer Chemistry Influenza A virus subtype H5N1 Practical Approach yesteryear Fred j. Davis Book Available In PDF Only for Education Purpose.
Contents.
Polymer characterization. 1. Introduction
2. Synthetic routes to polymers
3. Molecular weight determination
4. Composition together with microstructure
5. Optical microscopy
6. Electron microscopy
7. Analytical microscopy
8. Scanning probe microscopy
9. Thermal analysis
10. Molecular ease spectroscopy
11. X-ray together with neutron scattering methods
12. Conclusions
General procedures inward chain-growth polymerization.
1. Introduction 2. Free-radical chain polymerization 3. Anionic polymerization 4. Ring-opening polymerizations initiated yesteryear anionic reagents 5. Coordination polymers 6. Conclusions Controlled/‘living’ polymerization methods. 1. Introduction 2. Covalent ‘living’ polymerization: grouping transfer polymerization 3. Controlled free-radical polymerizations mediated yesteryear nitroxides 4. Controlled free-radical polymerizations: atom transfer free-radical polymerizations (ATRP) together with aqueous ATRP Step-growth polymerization—basics together with evolution of novel materials. 1. Introduction 2. The synthesis of an aromatic polyamide 3. Preparation of a main-chain liquid crystalline poly(ester ether) with a flexible side-chain 4. Non-periodic crystallization from a side-chain bearing copolyester 5. Influenza A virus subtype H5N1 comparing of melt polymerization of an aromatic di-acid containing an ethylene glycol spacer amongst polymerization in a solvent together with dispersion inward an inorganic medium The formation of cyclic oligomers during step-growth polymerization. 1. Introduction 2. Synthesis together with extraction of cyclic oligomers of poly(ether ketone) 3. Synthesis of roughly sulfone-linked paracyclophanes from macrocyclic thioethers 4. Summary The synthesis of conducting polymers based on heterocyclic compounds. 1. Introduction 2. Electrochemical synthesis 3. Synthesis of polypyrrole 4. Synthesis of polyaniline 5. Synthesis of polythiophene 6. Conclusions Some examples of dendrimer synthesis. 1. Introduction 2. Excess reagent method 3. Protection–deprotection method New methodologies inward the grooming of imprinted polymers. 1. Introduction 2. Sacrificial spacer approach 3. Preparation of bacteria-imprinted polymers Liquid crystalline polymers. 1. Introduction 2. Synthesis of an acrylate-based liquid crystal polymer 3. The hydrosilylation reaction: a useful physical care for for the preparation of a diversity of side-chain polymers
Fred J. Davis Reading December 2003
Polymer characterization.
1. Introduction
2. Synthetic routes to polymers
3. Molecular weight determination
4. Composition together with microstructure
5. Optical microscopy
6. Electron microscopy
7. Analytical microscopy
8. Scanning probe microscopy
9. Thermal analysis
10. Molecular ease spectroscopy
11. X-ray together with neutron scattering methods
12. Conclusions
General procedures inward chain-growth polymerization.
2. Synthetic routes to polymers
3. Molecular weight determination
4. Composition together with microstructure
5. Optical microscopy
6. Electron microscopy
7. Analytical microscopy
8. Scanning probe microscopy
9. Thermal analysis
10. Molecular ease spectroscopy
11. X-ray together with neutron scattering methods
12. Conclusions
General procedures inward chain-growth polymerization.
1. Introduction
2. Free-radical chain polymerization
3. Anionic polymerization
4. Ring-opening polymerizations initiated yesteryear anionic reagents
5. Coordination polymers
6. Conclusions
Controlled/‘living’ polymerization methods. 1. Introduction
2. Covalent ‘living’ polymerization: grouping transfer polymerization
3. Controlled free-radical polymerizations mediated yesteryear nitroxides
4. Controlled free-radical polymerizations: atom transfer free-radical polymerizations (ATRP) together with aqueous ATRP
Step-growth polymerization—basics together with evolution of novel materials. 1. Introduction
2. The synthesis of an aromatic polyamide
3. Preparation of a main-chain liquid crystalline poly(ester ether) with a flexible side-chain
4. Non-periodic crystallization from a side-chain bearing copolyester
5. Influenza A virus subtype H5N1 comparing of melt polymerization of an aromatic di-acid containing an ethylene glycol spacer amongst polymerization in a solvent together with dispersion inward an inorganic medium
The formation of cyclic oligomers during step-growth polymerization. 1. Introduction
2. Synthesis together with extraction of cyclic oligomers of poly(ether ketone)
3. Synthesis of roughly sulfone-linked paracyclophanes from macrocyclic thioethers
4. Summary
The synthesis of conducting polymers based on heterocyclic compounds. 1. Introduction
2. Electrochemical synthesis
3. Synthesis of polypyrrole
4. Synthesis of polyaniline
5. Synthesis of polythiophene
6. Conclusions
Some examples of dendrimer synthesis. 1. Introduction
2. Excess reagent method
3. Protection–deprotection method
New methodologies inward the grooming of imprinted polymers. 1. Introduction
2. Sacrificial spacer approach
3. Preparation of bacteria-imprinted polymers
Liquid crystalline polymers. 1. Introduction
2. Synthesis of an acrylate-based liquid crystal polymer
3. The hydrosilylation reaction: a useful physical care for for the preparation of a diversity of side-chain polymers
Fred J. Davis
Reading
December 2003
No comments:
Post a Comment