Chapter One  Why encapsulate antioxidants in emulsion-based systems, where they are located, and how location affects their efficiency 

Sonia Losada-Barreiro, Carlos Bravo-Díaz and Fátima Paiva-Martin 

Chapter Two High-energy emulsification methods for encapsulation of lipid-soluble antioxidants 

Zeynep Aksoylu Özbek, Pelin Günç Ergönül and M. Ali Aboudzadeh 

Chapter Three Low-energy emulsification methods for encapsulation of antioxidants

 M. Ali Aboudzadeh and Shaghayegh Hamzehlou 

Chapter Four Nanoemulsions as carriers for natural antioxidants: formulation development and optimization 

Ines Nikolić, Ana Gledović, Slobodanka Tamburić, Tamara Major and Snežana Savić 

Chapter Five Microemulsions as antioxidant carriers 

Anna Froelich and Tomasz Osmałek  

Chapter Six Membrane emulsification for encapsulation of bioactives: Application to the encapsulation of antioxidants 

Océane Alliod and Catherine Charcosset 

Chapter Seven Encapsulation of antioxidants using double emulsions

 Maria Matos, Rocío Díaz-Ruiz, Ali Marefati, Marilyn Rayner and Gemma Gutiérrez 

Chapter Eight Stability and release behavior of bioactive compounds (with antioxidant activity) encapsulated by Pickering emulsion 

Bakht Ramin Shah 

Chapter Nine Advances in the oxidative stability mechanisms of emulsions

 Parth Malik, Man Singh, Rakesh Kumar Ameta 

Chapter Ten The role of antioxidants and encapsulation processes in omega-3 stabilization 

Nor E. Rahmani-Manglano, Pedro J. García-Moreno, F. Javier Espejo-Carpio, A. Raúl PérezGálvez and Emilia M. Guadix-Escobar 

Chapter Eleven Encapsulation of pigmented lipophilic antioxidants through micro and nanoemulsions 

Sadia Aslam, Aqsa Akhtar, Rao Sanaullah Khan and Nauman Khalid 

Chapter Twelve Characterization techniques for emulsion-based antioxidant carriers with biomedical applications 

Gloria María Pontes-Quero, Eva Espinosa-Cano, Daniel Fernández-Villa, Miguel HuertaMadroñal, María Rosa Aguilar and Blanca Vázquez-Lasa 

M. Ali Aboudzadeh is currently a researcher in Donostia International Physics Center (DIPC) and Materials Physics Center (CFM). He received his BSc (2003) and MSc (2006) in Polymer Engineering from Amir Kabir University of Technology and Iran Polymer & Petrochemical Institute, respectively. He obtained his PhD (2015) in Applied Chemistry and Polymer Materials from University of the Basque Country, Spain.Dr. Aboudzadeh is author/coauthor ofmore than 20 professional papers in his research areas, which includepolymer synthesis and characterization; supramolecular assemblies; rheology; DNA nanotechnology; encapsulation via emulsion-based systems. From the year 2021, he continues his research as a Marie Curie Fellow in IPREM,which is a joint research unit attached to the CNRS and the University of Pau and Pays de l'Adour, France.

The limited aqueous solubility of bioactive pharmaceutical ingredients presents a tremendous challenge in the development of new drugs. In recent years, methods have been developed to protect these sensitive bioactive compounds, namely antioxidants, with the aim of increasing the public sanitation grades. Emulsion-based systems are particularly interesting as colloidal delivery encapsulation systems, because they can easily be created from food-grade ingredients using relatively simple processing protocols. It is one of the most favorable delivery systems to increase the solubility of phytochemicals, nutraceuticals and food additives.

Emulsion‐based Encapsulation of Antioxidants: Design and Performance advances the field of colloid science through the investigation of the effects of formulation and process parameters that influence emulsion production. The book offers a deeper comprehension of the technological and biological aspects of the incorporation of encapsulated compounds in food matrices and explication of their activity. Chapters provide an overview of the status of emulsion-based formulations to encapsulate antioxidants, fabrication, properties, applications, and biological fate with emphasis on systems suitable for utilization within industry. Special emphasis is placed on the antioxidant activity of the carriers being the key advantage of these emulsion-based systems.

The main aim of the book is to inspire and to guide fellow scientists and students in this field. Filled with illustrations, figures, case studies, practical examples, and historical perspectives, the book can also be used as a practical handbook or graduate textbook. For industry professionals, the book presents easy-to-achieve approaches to industrial pharmaceutical production.