Composite hydrogels assembled from food-grade biopolymers: Fabrication, properties, and applications

IF 15.9 1区 化学 Q1 CHEMISTRY, PHYSICAL
David Julian McClements
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Abstract

Biopolymer hydrogels have a broad range of applications as soft materials in a variety of commercial products, including foods, cosmetics, agrochemicals, personal care products, pharmaceuticals, and biomedical products. They consist of a network of entangled or crosslinked biopolymer molecules that traps relatively large quantities of water and provides semi-solid properties, like viscoelasticity or plasticity. Composite biopolymer hydrogels contain inclusions (fillers) to enhance their functional properties, including solid particles, liquid droplets, gas bubbles, nanofibers, or biological cells. These fillers vary in their composition, size, shape, rheology, and surface properties, which influences their impact on the rheological properties of the biopolymer hydrogels. In this article, the various types of biopolymers used to fabricate composite hydrogels are reviewed, with an emphasis on edible proteins and polysaccharides from sustainable sources, such as plants, algae, or microbial fermentation. The different kinds of gelling mechanism exhibited by these biopolymers are then discussed, including heat-, cold-, ion-, pH-, enzyme-, and pressure-set mechanisms. The different ways that biopolymer molecules can organize themselves in single and mixed biopolymer hydrogels are then highlighted, including polymeric, particulate, interpenetrating, phase-separated, and co-gelling systems. The impacts of incorporating fillers on the rheological properties of composite biopolymer hydrogels are then discussed, including mathematical models that have been developed to describe these effects. Finally, potential applications of composite biopolymer hydrogels are presented, including as delivery systems, packaging materials, artificial tissues, wound healing materials, meat analogs, filters, and adsorbents. The information provided in this article is intended to stimulate further research into the development and application of composite biopolymer hydrogels.

Abstract Image

由食品级生物聚合物组装而成的复合水凝胶:制造、特性和应用
生物聚合物水凝胶作为软材料在食品、化妆品、农用化学品、个人护理产品、药品和生物医学产品等各种商业产品中有着广泛的应用。它们由缠结或交联的生物聚合物分子网络组成,能截留相对较多的水分,并具有粘弹性或可塑性等半固体特性。复合生物聚合物水凝胶含有增强其功能特性的夹杂物(填料),包括固体颗粒、液滴、气泡、纳米纤维或生物细胞。这些填料的成分、大小、形状、流变性和表面特性各不相同,从而影响了它们对生物聚合物水凝胶流变特性的影响。本文综述了用于制造复合水凝胶的各类生物聚合物,重点介绍了来自植物、藻类或微生物发酵等可持续来源的可食用蛋白质和多糖。然后讨论了这些生物聚合物表现出的不同胶凝机制,包括热、冷、离子、pH 值、酶和压力凝结机制。然后重点介绍了生物聚合物分子在单一和混合生物聚合物水凝胶中的不同组织方式,包括聚合、颗粒、互穿、相分离和共凝胶系统。然后讨论了加入填料对复合生物聚合物水凝胶流变特性的影响,包括为描述这些影响而开发的数学模型。最后,介绍了复合生物聚合物水凝胶的潜在应用,包括作为输送系统、包装材料、人工组织、伤口愈合材料、肉类模拟物、过滤器和吸附剂。本文提供的信息旨在激励人们进一步研究复合生物聚合物水凝胶的开发和应用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
28.50
自引率
2.60%
发文量
175
审稿时长
31 days
期刊介绍: "Advances in Colloid and Interface Science" is an international journal that focuses on experimental and theoretical developments in interfacial and colloidal phenomena. The journal covers a wide range of disciplines including biology, chemistry, physics, and technology. The journal accepts review articles on any topic within the scope of colloid and interface science. These articles should provide an in-depth analysis of the subject matter, offering a critical review of the current state of the field. The author's informed opinion on the topic should also be included. The manuscript should compare and contrast ideas found in the reviewed literature and address the limitations of these ideas. Typically, the articles published in this journal are written by recognized experts in the field.
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