Nanocapsule: Advancements in Targeted Delivery Systems for Medical and Industrial Applications

Chapters Brief Overview:

1: Nanocapsule: An introduction to nanocapsules, their structure, and their applications in medicine.

2: Polystyrene (drug delivery): Explores polystyrenebased nanocapsules and their significance in targeted drug delivery.

3: Nanoparticles for drug delivery to the brain: Investigates nanoparticles' potential in overcoming the bloodbrain barrier for effective treatments.

4: Nanogel: Discusses the use of nanogels in controlled drug release and their bioengineering applications.

5: Janus particles: Focuses on Janus particles, their unique properties, and their role in enhancing drug delivery.

6: In situ polymerization: Covers the process of in situ polymerization in creating functional nanocapsules for drug delivery.

7: Acetalated dextran: Highlights the advantages of acetalated dextran in nanocapsule formation and drug release.

8: Microparticle: Explores microparticles' role in the creation of hybrid drug delivery systems with nanocapsules.

9: Microencapsulation: Examines microencapsulation techniques and their impact on controlled release drug formulations.

10: Ouzo effect: Discusses the Ouzo effect in the selfassembly of nanostructures and its role in nanocapsule design.

11: Interfacial polymerization: Describes interfacial polymerization techniques used to create stable nanocapsules for drug delivery.

12: Targeted drug delivery: Focuses on the targeting strategies employed in drug delivery using nanocapsules for better therapeutic outcomes.

13: Pickering emulsion: Investigates Pickering emulsions and their role in stabilizing drugloaded nanocapsules for efficient delivery.

14: Chitosan nanoparticles: Explores chitosanbased nanoparticles and their biocompatibility for drug delivery.

15: Nano spray dryer: Describes the process of nano spray drying for producing highquality drugloaded nanocapsules.

16: Nanocomposite hydrogels: Focuses on nanocomposite hydrogels' integration with nanocapsules for enhanced drug delivery performance.

17: Pharmaceutical formulation: Discusses pharmaceutical formulations incorporating nanocapsules for improved drug stability and efficacy.

18: Liposome: Investigates the use of liposomes in conjunction with nanocapsules for controlled and targeted drug delivery.

19: Nanoparticle drug delivery: Analyzes the use of nanoparticles as carriers for efficient drug delivery, emphasizing nanocapsule integration.

20: Electrospinning: Covers the technique of electrospinning and its role in fabricating nanocapsules for drug delivery.

21: Cell encapsulation: Explores the potential of cell encapsulation using nanocapsules for therapeutic applications in regenerative medicine.

"Nanocapsule" is a critical text for anyone seeking to dive into the transformative world of molecular nanotechnology, providing insights that will prove invaluable for future developments in drug delivery, biomedical engineering, and beyond. By understanding the intricacies of nanocapsules and their application, readers gain a competitive edge in this dynamic and rapidly expanding field.