Abstract

Cellulose nanocrystals (CNCs) received great attention in various fields, because of their high efficacy, high aspect ratio, low density, renewability and non-toxicity which make them ideal candidates. Here, various properties and applications especially, thermal, mechanical, adhesives, coatings etc., to introduce CNCs, a hydrophilic and colloidally stable, rigid rod-shaped bio-based nanomaterial with high strength and high surface area. CNCs enhance properties of different compounds under different conditions. The research in the last decade reveals that couple of years CNCs possesses high nature, than any other kind of compound, widely used in industrial and other products, as well as for human benefits. Over the past decade, CNCs is an abundant natural nanomaterial with great potential, has attracted many researches towards its use. Dispersing in polar solvent, they assemble to form multiphase or higher order structures yielding desirable optical and structural properties. The present review summarizes the recent achievements in the development of CNCs templating, highlights considerable progress has been achieved in addressing these multidimensional properties and potential use of CNCs in a wide range of high-tech applications in different fields.

中文翻译：

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纤维素纳米晶体的性质和应用研究进展

摘要

纤维素纳米晶体（CNC）的高功效，高长宽比，低密度，可再生性和无毒性使其成为理想的候选物质，因此在各个领域引起了广泛关注。在这里，各种特性和应用，特别是热，机械，粘合剂，涂料等的各种特性和应用，引入了具有高强度和高表面积的亲水性和胶体稳定的，刚性的棒状生物基纳米材料CNCs。CNC在不同条件下可增强不同化合物的性能。最近十年的研究表明，与任何其他种类的化合物相比，CNC拥有更高的本性，被广泛用于工业和其他产品以及对人类有益。在过去的十年中，CNCs是一种具有巨大潜力的丰富的天然纳米材料，吸引了许多有关其用途的研究。分散在极性溶剂中，它们组装形成多相或更高阶结构，从而产生理想的光学和结构特性。本综述总结了CNC模板开发中的最新成就，强调了在解决这些多维特性以及CNC在不同领域的广泛高科技应用中的潜在用途方面已经取得了相当大的进步。