声明
摘要
ABSTRACT
LIST OF ABBREVIATION
Contents
Chapter 1.Introduction to Polyphosphazene
1.1 Introduction
1.2.Polyphosphazenes history
1.2.Types of polyphosphazenes
1.2.1.Small-molecule cyclic polyphosphazenes
1.2.2.Small-molecule linear polyphosphazenes
1.2.3.Linear polyphosphazenes high polymers
1.2.4.Macromolecular and composite polyphosphazenes materials
1.3.Geometric and electronic Properties of polyphosphazenes
1.4.Syntheses Methods of polyphosphazenes
1.4.1.Syntheses methods of linear polyphosphazenes
1.4.2.Syntheses methods of Cyclomatrix type of polyphosphazenes
1.5.Applications of cyclomatrix type of polyphosphazenes
1.5.1.Biomedical application
1.5.2.Fluorescent active materials
1.5.3.Carbon materials derivatives
1.5.4.Adsorbent of toxic compounds
1.5.5.Support materials for nanoparticles
Aims and Obieetives
References
Chapter 2:Effective poly(cyclotriphosphazene-co-4,4’-suifonyldiphenol)@rGO sheets for tetracycline adsorption:Fabrication,Characterization,adsorption kinetics and thermodynamics
2.1.Introduction
2.2.Experimental details
2.2.2.Synthesis of PZS@rGO
2.2.3.Adsorption of PZS@rGO materials for tetracycline hydroehloride
2.2.4 Characterization
2.3.Results and discussion
2.3.1 Adsorption Kinetics and Adsorption capacity
2.3.2 Adsorption isotherms
2.3.3 Batch Experiments
2.3.4 Adsorption thermodynamics
2.3.5 Mechanism
2.4.Summary
References
Chapter 3: Fabrication of bimetallic Cu-Ag nanoparticles-decorated poly(cyclotriphosphazene-co-4,4'-sulfonyidiphenol)and their enhanced catalytic activity for reduction of 4-nitrophenol
3.1 Introduction
3.2 Experimental details
3.2.1 Materials
3.2.2 Synthesis of PZS nanotubes
3.2.3 Synthesis of PZS@Ag-Cu NPs composites nanotube
3.2.4 Catalytic activity
3.3 Characterization
3.5 Results and Diseussion
3.6 Summary
References
Chapter.4 Conclusion
ACKNOWLEDGEMENTS
北京化工大学;
