Bacterial cellulose nanocrystals obtained through enzymatic and acidic routes: A comparative study of their main properties and in vitro biological responses

化学 纳米纤维素 纳米颗粒 结晶度 化学工程 纤维素酶 纤维素 硫酸 Zeta电位 水解 酶水解 细菌纤维素 纳米晶 背景(考古学) 纳米技术 有机化学 材料科学 结晶学 生物 工程类 古生物学
作者
Amanda Maria Claro,Isabella Karoline Ribeiro Dias,Marina de Lima Fontes,Vitória Maria Medalha Colturato,Laís R. Lima,Letícia Borges Sávio,Gabriela Leila Berto,Valdeir Arantes,Hernane da Silva Barud
出处
期刊:Carbohydrate Research [Elsevier BV]
卷期号:539: 109104-109104 被引量:1
标识
DOI:10.1016/j.carres.2024.109104
摘要

Cellulose nanocrystals (CNCs) are crystalline domains isolated from cellulosic fibers. They have been utilized in a wide range of applications, such as reinforcing fillers, antibacterial agents and manufacturing of biosensors. Whitin this context, the aim of this work was to obtain and analyze CNCs extracted from bacterial nanocellulose (BNC) using two distinct methods combined with milling pre-treatment: an acidic hydrolysis using 64 % sulfuric acid and an enzymatic hydrolysis using a commercial cellulase enzyme mixture. The CNCs obtained from the enzymatic route (e-CNCs) were observed to be spherical nanoparticles with diameter of 56 ± 11 nm. In contrast, the CNCs from the acid hydrolysis (a-CNCs) appeared as needle-shaped nanoparticles with a high aspect ratio with lengths/widths of 158 ± 64 nm/11 ± 2 nm. The surface zeta potential (ZP) of the a-CNCs was −30,8 mV, whereas the e-CNCs has a potential of +2.70 ± 3.32 mV, indicating that a-CNCs consisted of negatively charged particles with higher stability in solution. Although the acidic route resulted in nanocrystals with a slightly higher crystallinity index compared to the enzymatic route, e-CNCs was found to be more thermally stable than BNC and a-CNCs. Here, we also confirmed the safety of a-CNCs and e-CNCs using L929 cell line. Lastly, this article describes two different CNCs synthesis approaches that leads to the formation of nanoparticles with different dimensions, morphology and unique physicochemical properties. To the best of our knowledge, this is the first study to yield spherical nanoparticles as a result of BNC enzymatic treatment.

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