Colloidal magnesium hydroxide Nanoflake: One-Step Surfactant-Assisted preparation and Paper-Based relics protection with Long-Term Anti-Acidification and Flame-Retardancy

肺表面活性物质 化学工程 结晶度 氢氧化物 结块 胶体 溶剂 纳米材料 分散稳定性 材料科学 化学 色散(光学) 纳米技术 无机化学 有机化学 工程类 物理 光学
作者
Sinong Wang,Xue Yang,Yihan Li,Boxu Gao,Shanshan Jin,Rong Yu,Yahong Zhang,Yi Tang
出处
期刊:Journal of Colloid and Interface Science [Elsevier BV]
卷期号:607 (Pt 2): 992-1004 被引量:49
标识
DOI:10.1016/j.jcis.2021.09.041
摘要

Enhancing the interfacial dispersion and suspension stability is crucial for magnesium hydroxide (Mg(OH)2) nanomaterials in the long-term deacidification of paper-based cultural relics. However, because of the low specific surface area and the poor solvent compatibility of as-prepared large-sized Mg(OH)2, it often tends to agglomerate and settle down during the usage and storage, that is harmful for paper protection due to its unevenly deacidification and nonuniformly distribution on paper cellulose. Herein, we propose a feasible preparation of colloidal Mg(OH)2 ultrathin nanoflakes with high dispersion stability via a simple one-step surfactant-assisted strategy. The surfactant acts as both a structure-direct agent to confine the growth of Mg(OH)2 with rich active sites and a surface modifier to enhance its solvent adaptability and dispersion stability, avoiding the common fussy procedure with additional steric stabilizer. Owing to the evenly interaction with free acid species therein and the uniformly distribution on the paper fiber as alkaline reserve, the as-obtained Mg(OH)2 presents the superior paper protection performance characterized by its safer pH of 7.29 for the original aged paper (pH = 5.03) and the excellent long-term anti-acidification effect with competitive pH of 5.47 after accelerated-aging at 105 °C for 5 months. Furthermore, Mg(OH)2 nanoflakes with surfactant-modified structure also endue them as an improved flame retardant for multifunctional paper protection. The protection with Mg(OH)2 has little effect on the paper surface properties and cellulose crystallinity, in line with the principle of least intervention. This work will put forward a feasible way toward colloidal Mg(OH)2 nanoflakes with excellent paper protection performance, shedding light on the development of emerging protection materials for paper-based cultural relics.
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