Pickering multiphase materials using plant-based cellulosic micro/nanoparticles

IF 13.9 Q1 CHEMISTRY, MULTIDISCIPLINARY

Aggregate (Hoboken, N.J.) Pub Date : 2024-01-04 DOI:10.1002/agt2.486

Wei Liu, Bo Pang, Meng Zhang, Jiayi Lv, Ting Xu, Long Bai, Xu-Min Cai, Shuangquan Yao, Siqi Huan, Chuanling Si

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Abstract

Pickering multiphase systems stabilized by solid particles have recently attracted increasing attention due to their excellent stability. Among various solid stabilizers, natural and renewable cellulosic micro/nanoparticles that are derived from agricultural and forestry sources have become promising candidates for Pickering stabilization due to their unique morphological features and tunable surface properties. In this review, recent progress on forming and stabilizing Pickering multiphase systems using cellulosic colloidal particles is summarized, including the physicochemical factors affecting their assembly at the interfaces and the preparation methods suitable for producing Pickering emulsions. In addition, relevant application prospects of corresponding Pickering multiphase materials are outlined. Finally, current challenges and future perspectives of such renewable Pickering multiphase systems are presented. This review aims to encourage the utilization of cellulosic micro/nanoparticles as key components in the development of Pickering systems, leading to enhanced performance and unique functionalities.

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利用植物纤维素微/纳米颗粒萃取多相材料

由固体颗粒稳定的皮克林多相体系因其出色的稳定性而受到越来越多的关注。在各种固体稳定剂中，从农业和林业资源中提取的天然和可再生纤维素微/纳米颗粒因其独特的形态特征和可调整的表面特性，已成为拾取稳定化的理想候选物质。本综述总结了利用纤维素胶体颗粒形成和稳定皮克林多相体系的最新进展，包括影响其在界面组装的物理化学因素以及适合生产皮克林乳液的制备方法。此外，还概述了相应皮克林多相材料的相关应用前景。最后，介绍了此类可再生 Pickering 多相系统目前面临的挑战和未来前景。本综述旨在鼓励利用纤维素微/纳米颗粒作为开发 Pickering 系统的关键成分，从而提高性能和独特功能。

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