Abdur Rehman, Qiufang Liang, Aiman Karim, Elham Assadpour, Seid Mahdi Jafari, Hafiz Abdul Rasheed, Muhammad Safiullah Virk, Abdul Qayyum, Hafiz Ansar Rasul Suleria, Xiaofeng Ren
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Recent research has revealed significant improvements in the development and utilization of diverse BPs for the formulation of Pickering High Internal Phase Emulsions (P-HIPEs). The characteristics of the interfacial layer can be modified via applying BPs, which facilitates the regulation and maintenance of the performance and stability of P-HIPEs. The objective of this article is to evaluate factors that influence the behavior of colloidal particles at surfaces and their adsorption properties, as well as the fundamental structure of matrix constituents and the significant characteristics of P-HIPEs. In this review, we discuss the emerging applications of P-HIPEs for developing biodegradable packaging films, 3D printing inks, and porous materials, as well as for entrapment and controlled release of bioactives. There is potential for developing stimulus-responsive or transparent P-HIPEs, which could potentially introduce novel opportunities. Taken together, this review aims to provide a useful resource for future research endeavors pertaining to the utilization of natural biopolymers in the production of P-HIPEs.</p>","PeriodicalId":320,"journal":{"name":"Food Hydrocolloids","volume":"6 1","pages":""},"PeriodicalIF":11.0000,"publicationDate":"2024-01-13","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Pickering high internal phase emulsions stabilized by biopolymeric particles: From production to high-performance applications\",\"authors\":\"Abdur Rehman, Qiufang Liang, Aiman Karim, Elham Assadpour, Seid Mahdi Jafari, Hafiz Abdul Rasheed, Muhammad Safiullah Virk, Abdul Qayyum, Hafiz Ansar Rasul Suleria, Xiaofeng Ren\",\"doi\":\"10.1016/j.foodhyd.2024.109751\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p>In modern times, there has been a significant rise in interest regarding the production of high internal phase emulsions (HIPEs) owing to their extraordinary stability as well as their distinctive solid-like rheological characteristics. Particles produced by polysaccharides, proteins, and polysaccharide-protein complexes/conjugates are highly efficient Pickering stabilizers for HIPEs. These biopolymeric particles (BPs) carry out a dual function by satisfying the growing consumer's demand for “all-natural\\\" and “clean-label\\\" foodstuffs. Moreover, the production of multi-component colloidal particles, complexes, and conjugates can enhance the efficacy of biopolymers. Recent research has revealed significant improvements in the development and utilization of diverse BPs for the formulation of Pickering High Internal Phase Emulsions (P-HIPEs). The characteristics of the interfacial layer can be modified via applying BPs, which facilitates the regulation and maintenance of the performance and stability of P-HIPEs. The objective of this article is to evaluate factors that influence the behavior of colloidal particles at surfaces and their adsorption properties, as well as the fundamental structure of matrix constituents and the significant characteristics of P-HIPEs. In this review, we discuss the emerging applications of P-HIPEs for developing biodegradable packaging films, 3D printing inks, and porous materials, as well as for entrapment and controlled release of bioactives. There is potential for developing stimulus-responsive or transparent P-HIPEs, which could potentially introduce novel opportunities. 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Pickering high internal phase emulsions stabilized by biopolymeric particles: From production to high-performance applications
In modern times, there has been a significant rise in interest regarding the production of high internal phase emulsions (HIPEs) owing to their extraordinary stability as well as their distinctive solid-like rheological characteristics. Particles produced by polysaccharides, proteins, and polysaccharide-protein complexes/conjugates are highly efficient Pickering stabilizers for HIPEs. These biopolymeric particles (BPs) carry out a dual function by satisfying the growing consumer's demand for “all-natural" and “clean-label" foodstuffs. Moreover, the production of multi-component colloidal particles, complexes, and conjugates can enhance the efficacy of biopolymers. Recent research has revealed significant improvements in the development and utilization of diverse BPs for the formulation of Pickering High Internal Phase Emulsions (P-HIPEs). The characteristics of the interfacial layer can be modified via applying BPs, which facilitates the regulation and maintenance of the performance and stability of P-HIPEs. The objective of this article is to evaluate factors that influence the behavior of colloidal particles at surfaces and their adsorption properties, as well as the fundamental structure of matrix constituents and the significant characteristics of P-HIPEs. In this review, we discuss the emerging applications of P-HIPEs for developing biodegradable packaging films, 3D printing inks, and porous materials, as well as for entrapment and controlled release of bioactives. There is potential for developing stimulus-responsive or transparent P-HIPEs, which could potentially introduce novel opportunities. Taken together, this review aims to provide a useful resource for future research endeavors pertaining to the utilization of natural biopolymers in the production of P-HIPEs.
期刊介绍:
Food Hydrocolloids publishes original and innovative research focused on the characterization, functional properties, and applications of hydrocolloid materials used in food products. These hydrocolloids, defined as polysaccharides and proteins of commercial importance, are added to control aspects such as texture, stability, rheology, and sensory properties. The research's primary emphasis should be on the hydrocolloids themselves, with thorough descriptions of their source, nature, and physicochemical characteristics. Manuscripts are expected to clearly outline specific aims and objectives, include a fundamental discussion of research findings at the molecular level, and address the significance of the results. Studies on hydrocolloids in complex formulations should concentrate on their overall properties and mechanisms of action, while simple formulation development studies may not be considered for publication.
The main areas of interest are:
-Chemical and physicochemical characterisation
Thermal properties including glass transitions and conformational changes-
Rheological properties including viscosity, viscoelastic properties and gelation behaviour-
The influence on organoleptic properties-
Interfacial properties including stabilisation of dispersions, emulsions and foams-
Film forming properties with application to edible films and active packaging-
Encapsulation and controlled release of active compounds-
The influence on health including their role as dietary fibre-
Manipulation of hydrocolloid structure and functionality through chemical, biochemical and physical processes-
New hydrocolloids and hydrocolloid sources of commercial potential.
The Journal also publishes Review articles that provide an overview of the latest developments in topics of specific interest to researchers in this field of activity.