Smart Polymers and their Applications

Contributor contact details 1. Introduction to smart polymers and their applications Abstract: 1.1 Introduction 1.2 Types of smart polymer 1.3 Applications of smart polymers 1.4 Conclusion 1.5 Acknowledgments 1.6 References Part I: Types of smart polymer 2. Temperature-responsive polymers: properties, synthesis and applications Abstract: 2.1 Introduction 2.2 Basic principles of temperature-responsive polymers in aqueous solution 2.3 Key types of temperature-responsive polymers in aqueous solution 2.4 Selected applications of thermoresponsive polymers 2.5 Conclusion 2.6 Future trends 2.7 References 3. pH-responsive polymers: properties, synthesis and applications Abstract: 3.1 Introduction 3.2 Key types and properties of pH-responsive polymers 3.3 Synthesis of pH-responsive polymers 3.4 Different methodologies for the preparation of pH-responsive polymers 3.5 Different architectures of pH-responsive polymers 3.6 Applications 3.7 Conclusion 3.8 Future trends 3.9 References 3.10 Appendix: abbreviations 4. Photo-responsive polymers: properties, synthesis and applications Abstract: 4.1 Introduction 4.2 Chromophores and their light-induced molecular response 4.3 Key types and properties of photo-responsive polymers 4.4 Applications 4.5 Conclusions and future trends 4.6 References 5. Magnetically responsive polymer gels and elastomers: properties, synthesis and applications Abstract: 5.1 Introduction 5.2 Preparation of magnetically responsive polymer gels and elastomeric materials 5.3 Magnetic properties of filler-loaded polymers 5.4 Elastic behaviour of magnetic gels and elastomers 5.5 Kinetics of shape change 5.6 The swelling equilibrium under a uniform magnetic field 5.7 Polymer gels in a non-uniform electric or magnetic field 5.8 Future trends 5.9 Acknowledgements 5.10 References 6. Enzyme-responsive polymers: properties, synthesis and applications Abstract: 6.1 Introduction 6.2 Enzyme-responsive materials: rationale, definition and history 6.3 Key types and properties of enzyme-responsive polymers 6.4 Preparation of enzyme-responsive polymers 6.5 Characterisation of enzyme-responsive polymers 6.6 Applications 6.7 Conclusion 6.8 Future trends 6.9 References 7. Shape memory polymers: properties, synthesis and applications Abstract: 7.1 Introduction 7.2 Characterizing shape memory effects in polymeric materials 7.3 Classifying shape memory polymers: classification by polymer structure 7.4 Classifying shape memory polymers: classification by type of stimulus 7.5 Main applications of smart polymers 7.6 Conclusion 7.7 References 8. Smart polymer hydrogels: properties, synthesis and applications Abstract: 8.1 Introduction 8.2 Key types and properties of smart polymer hydrogels 8.3 Applications of smart polymer hydrogels 8.4 Conclusions and future trends 8.5 References 9. Self-healing polymer systems: properties, synthesis and applications Abstract: 9.1 Introduction 9.2 Types of self-healing 9.3 Self-healing and recovery of functionality in materials 9.4 Conclusion 9.5 Acknowledgements 9.6 References Part II: Applications of smart polymers 10. Smart instructive polymer substrates for tissue engineering Abstract: 10.1 Introduction 10.2 Instructive polymeric surfaces 10.3 Instructive hydrogels with a physicochemical response 10.4 Materials with 3D defined patterns 10.5 Applications in tissue engineering 10.6 Conclusion and future trends 10.7 References 11. Smart polymer nanocarriers for drug delivery Abstract: 11.1 Introduction 11.2 Smart polymeric carriers for drug delivery: pH-responsive nanocarriers 11.3 Smart polymeric carriers for drug delivery: enzyme-responsive nanocarriers 11.4 Smart polymeric carriers for drug delivery: oxidation-responsive nanocarriers 11.5 Smart polymeric carriers for drug delivery: temperature-responsive nanocarriers 11.6 Smart polymeric carriers for drug delivery: nanocarriers responsive to other stimuli 11.7 Conclusion and future trends 11.8 References 12.