Nanochitin: Chemistry, Structure, Assembly, and Applications

甲壳素 纳米技术 化学 背景(考古学) 生物高聚物 超分子化学 生化工程 适应性 材料科学 壳聚糖 工程类 聚合物 生态学 有机化学 古生物学 晶体结构 生物
作者
Long Bai,Liang Liu,Marianelly Esquivel,Blaise L. Tardy,Siqi Huan,Xun Niu,Shouxin Liu,Guihua Yang,Yimin Fan,Orlando J. Rojas
出处
期刊:Chemical Reviews [American Chemical Society]
卷期号:122 (13): 11604-11674 被引量:387
标识
DOI:10.1021/acs.chemrev.2c00125
摘要

Chitin, a fascinating biopolymer found in living organisms, fulfills current demands of availability, sustainability, biocompatibility, biodegradability, functionality, and renewability. A feature of chitin is its ability to structure into hierarchical assemblies, spanning the nano- and macroscales, imparting toughness and resistance (chemical, biological, among others) to multicomponent materials as well as adding adaptability, tunability, and versatility. Retaining the inherent structural characteristics of chitin and its colloidal features in dispersed media has been central to its use, considering it as a building block for the construction of emerging materials. Top-down chitin designs have been reported and differentiate from the traditional molecular-level, bottom-up synthesis and assembly for material development. Such topics are the focus of this Review, which also covers the origins and biological characteristics of chitin and their influence on the morphological and physical-chemical properties. We discuss recent achievements in the isolation, deconstruction, and fractionation of chitin nanostructures of varying axial aspects (nanofibrils and nanorods) along with methods for their modification and assembly into functional materials. We highlight the role of nanochitin in its native architecture and as a component of materials subjected to multiscale interactions, leading to highly dynamic and functional structures. We introduce the most recent advances in the applications of nanochitin-derived materials and industrialization efforts, following green manufacturing principles. Finally, we offer a critical perspective about the adoption of nanochitin in the context of advanced, sustainable materials.
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