Abstract
Paper-based relics, which are an important part of cultural heritage worldwide, are at risk of imminent damage from various environmental sources. To protect them, the atmospheric pressure plasma polymerization of hexamethyldisiloxane (HMDSO) precursor has been explored on paper-based relics in situ. The macro and micro images taken during this process suggest that the in situ plasma treatment does not change the macro morphology and the micro structure of the treated paper-based relic samples. On the other hand, plasma treatment causes the polymerization of the HMDSO which then produces nanoparticles deposited onto the paper-based relics. These nanoparticles provide good waterproof properties with large static water contact angles and smaller rolling angles, which protect the paper-based relics from water penetration. Moreover, since the nanoparticles are deposited onto the fibers, waterproof fastness is ensured. Also, the examined mechanical properties of the treated and untreated paper-based relics indicate that the atmospheric pressure plasma treatment does not affect the strength of the paper very much. The results in this study show that atmospheric pressure plasma treatment with the use of HMDSO precursor is a good method to preserve paper-based relics.
Highlights
Paper has been the primary type of material for recording information worldwide since its invention.Paper-based relics are an important component of cultural heritage, including rare historical books, calligraphy and paintings, and other culturally- and historically-invaluable objects [1,2,3,4]
The treatment, the water droplet was not absorbed into the paper, and the water contact angles (WCAs) was substantially water droplet was not the2c
We addressed the treatment of paper-based relics by using atmospheric pressure
Summary
Paper has been the primary type of material for recording information worldwide since its invention.Paper-based relics are an important component of cultural heritage, including rare historical books, calligraphy and paintings, and other culturally- and historically-invaluable objects [1,2,3,4]. Since the main components of paper are cellulose, lignin, and hemicelluloses, they can readily hydrolyze and oxidize and, along with the acidic or oxidized inks and pigments, lead to acidification and a reduction in hardness and folding strength [5,6,7,8,9,10]. Water on the surface of and inside the paper could increase the rate of hydrolysis of cellulose by providing H+ as the catalyst, which blurs the pigments on the paper [9,14]
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