Pickering Emulsion

Understanding the science behind Pickering emulsions unlocks innovations across industries, from pharmaceuticals to food technology. This book provides a comprehensive exploration of emulsion science within nanocapsule applications, catering to professionals, researchers, and students alike. It offers critical insights into stabilization techniques, colloidal interactions, and their transformative potential.

Chapters Brief Overview:

1: Pickering emulsion — Introduces Pickering emulsions, highlighting their role in stabilizing biphasic systems.

2: Emulsion stabilization using polyelectrolytes — Explores polyelectrolytebased stabilization techniques.

3: Miniemulsion — Examines miniemulsions and their impact on controlled particle synthesis.

4: Ultrahydrophobicity — Discusses surface interactions influencing emulsion behavior and repellency.

5: Coffee ring effect — Analyzes how particle deposition patterns affect emulsion stability and applications.

6: Macroemulsion — Defines macroemulsions and their role in largescale formulation processes.

7: Emmie LucassenReynders — Highlights contributions to emulsion science and interfacial rheology.

8: Colloid — Explores colloidal stability and its significance in Pickering emulsions.

9: Janus particles — Investigates Janus particles as advanced stabilizers in emulsion systems.

10: Emulsion — Provides a foundational understanding of emulsion types and their stability.

11: Ouzo effect — Explores spontaneous emulsification and its implications in formulation science.

12: Hydrophobe — Discusses hydrophobic interactions and their influence on emulsion stability.

13: Waterinwater emulsion — Examines unique phase separation in aqueous emulsions.

14: Microemulsion — Analyzes thermodynamically stable microemulsions and their applications.

15: Liquid marbles — Explores nonwetting droplets and their potential in controlled delivery systems.

16: Flocculation — Investigates aggregation phenomena and their impact on emulsion longevity.

17: Nanoparticles for drug delivery to the brain — Examines targeted delivery using nanoemulsions.

18: Emulsion polymerization — Details polymerization processes within emulsified systems.

19: Surfactants in paint — Explores emulsionbased surfactants enhancing paint formulations.

20: Nanocellulose — Highlights nanocellulose as a biobased stabilizer for emulsions.

21: Microencapsulation — Investigates controlled release via microencapsulation techniques.

This book equips readers with practical and theoretical knowledge essential for advancing emulsionbased technologies. Whether you are a researcher, professional, or student, this resource bridges scientific principles with realworld applications, ensuring you stay ahead in the evolving field of nanocapsule science.