Interfacial Polymerization

“Interfacial Polymerization,” part of the “Nanocapsule” series, presents an essential guide for anyone involved in the evolving field of polymer science. This book offers a comprehensive exploration of interfacial polymerization and its critical applications in nanotechnology, material science, and drug delivery systems. With clear explanations and indepth discussions, this book is a mustread for professionals, students, and enthusiasts eager to understand the role of polymerization in modern science and technology

Interfacial polymerization-This chapter introduces the fundamentals of interfacial polymerization, its mechanisms, and its applications in nanocapsule formation

Synthetic membrane-The chapter explores the use of interfacial polymerization to create synthetic membranes with high selectivity and permeability

Cardo polymer-A detailed discussion on the synthesis and properties of cardo polymers and their role in nanocapsule design and stability

Nanofiber-This chapter highlights the production of nanofibers through interfacial polymerization and their importance in drug delivery systems

Catalyst transfer polymerization-An introduction to catalyst transfer polymerization and its influence on the control of polymer structure in nanocapsules

Polyester-The use of polyester in nanocapsule formation and its role in enhancing the performance of drug delivery systems is covered here

Polyaniline nanofibers-This chapter investigates the use of polyaniline nanofibers in nanocapsules for enhanced drug release and delivery

Polymer engineering-A discussion on the advanced engineering techniques involved in designing and optimizing polymers for nanocapsule applications

Twodimensional polymer-The chapter delves into twodimensional polymers and their potential in the creation of highly efficient nanocapsules

In situ polymerization-Focusing on the in situ polymerization process, this chapter outlines its importance in nanocapsule synthesis

Microencapsulation-The chapter provides insights into microencapsulation techniques and their role in enhancing the stability and release properties of nanocapsules

Sol–gel process-An exploration of the solgel process and its use in creating nanocapsules for drug delivery and other applications

Nanofiber seeding-This chapter discusses nanofiber seeding techniques, which facilitate the creation of highperformance nanocapsules

Polypyrrole-The use of polypyrrole in nanocapsule systems is analyzed for its conductive properties and applications in biomedical fields

Electrospinning-Electrospinning techniques are explained in this chapter, with a focus on their use in creating nanofiberbased nanocapsules

Living polymerization-The chapter explores living polymerization methods and their importance in controlling the structure of nanocapsules

Thermosetting polymer-This chapter discusses the role of thermosetting polymers in the development of durable and stable nanocapsules

Sodium polyacrylate-Sodium polyacrylate is examined here for its use in enhancing the properties of nanocapsules in drug delivery systems

Graft polymer-The role of graft polymers in improving the performance of nanocapsules, especially in drug targeting and release, is explored

Polyvinylidene fluoride-The properties of polyvinylidene fluoride are examined for its use in creating robust nanocapsules for various applications

Conductive polymer-The chapter explains how conductive polymers contribute to the development of smart nanocapsules with responsive features