甲基丙烯酸结冷胶微凝胶:基于凝胶的清洁系统的进一步发展

IF 3.5 2区 综合性期刊 0 ARCHAEOLOGY
Leonardo Severini , Silvia Franco , Erika Celi , Simona Sennato , Elisa Paialunga , Letizia Tavagnacco , Laura Micheli , Roberta Angelini , Emanuela Zaccarelli , Claudia Mazzuca
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引用次数: 0

摘要

近几个世纪以来,纸张承载了人类大量的知识记录,因此,保护纸张对于维护文化遗产至关重要。事实上,纤维素--这些文物的主要材料--在老化过程中会经历不可逆转的降解过程,导致纸张稳定性减弱和颜色变化。为了延缓纸张老化,文献中出现了几种使用水凝胶湿法清洁的修复策略。由于污染物的性质从化学物理的角度来看存在很大差异(即亲水性、疏水性或粘合剂、高分子化合物),因此通常需要多步处理才能完成清洁程序。在这篇文章中,我们提出了一种清洁策略,通过开发由甲基丙烯酸结冷胶制成的微凝胶颗粒来解决纸张固有的粗糙问题。微凝胶颗粒比其宏观对应的水凝胶更小,因此能更快地清洁纸张,几分钟就能完成清洁,而不是几个小时。此外,对脱乙酰结冷胶进行化学改性后,聚合物的疏水性比未改性的聚合物更强。这样,拟议中的微凝胶不仅能与纤维素降解过程中产生的亲水性副产品(如结冷胶微凝胶)相互作用并吸附它们,还能与疏水性材料或合成粘合剂相互作用并吸附它们。该程序是一种有效的纸质艺术品清洁策略,对操作人员安全无害,因为它避免了使用具有潜在危险的有机溶剂来清除疏水性材料。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Methacrylated gellan gum microgels: A further step in the gel-based cleaning system
Paper has been entrusted with a large portion of humanity's recorded knowledge in recent centuries, therefore its preservation is fundamental for maintaining cultural heritage. Indeed, cellulose—the primary material of these artifacts— goes through irreversible degradation processes as it ages, leading to a weakening of paper stability and color changes. In order to slow down ageing, several restoration strategies involving the use of wet cleaning by hydrogels can be found in literature. Multi-step treatments are often required to complete the cleaning procedure, as the properties of contaminants greatly vary from a chemical–physical point of view (i.e. hydrophilic, hydrophobic or, as for adhesives, polymeric compounds). In this article, we propose a cleaning strategy that accounts for the inherent roughness of paper by developing microgel particles made of methacrylated gellan gum. Microgel particles are smaller than their macroscopic counterparts, hydrogels, and as a result, they can clean paper more quickly, a few minutes as opposed to hours. Moreover, the chemical modification performed on deacylated gellan gum makes the polymer more hydrophobic, as compared to the unmodified one. In this way, the proposed microgels are able to interact with and adsorb not only hydrophilic by-products of cellulose degradation, as gellan gum-based microgels do, but also hydrophobic materials or synthetic adhesives. This procedure represents a valid strategy, safe for operators, for the cleaning of paper artworks as it avoids the use of potentially dangerous organic solvents for hydrophobic material removal.
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来源期刊
Journal of Cultural Heritage
Journal of Cultural Heritage 综合性期刊-材料科学:综合
CiteScore
6.80
自引率
9.70%
发文量
166
审稿时长
52 days
期刊介绍: The Journal of Cultural Heritage publishes original papers which comprise previously unpublished data and present innovative methods concerning all aspects of science and technology of cultural heritage as well as interpretation and theoretical issues related to preservation.
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