Microgel particles have emerged in the past few years as a favorite model system for fundamental science and for innovative applications ranging from the industrial to biomedical fields. Despite their potentialities, no works so far have focused on the application of microgels for cultural heritage preservation. Here we show their first use for this purpose, focusing on wet paper cleaning. Exploiting their retentive properties, microgels are able to clean paper, ensuring more controlled water release from the gel matrix, in analogy to their macroscopic counterpart, i.e., hydrogels. However, differently from these, the reduced size of microgels makes them suitable to efficiently penetrate in the porous structure of the paper and to easily adapt to the irregular surfaces of the artifacts. To test their cleaning abilities, we prepare microgels made of Gellan gum, a natural and widespread material already used as a hydrogel for paper cleaning, and apply them to modern and ancient paper samples. Combining several diagnostic methods, we show that microgels performances in the removal of cellulose degradation byproducts for ancient samples are superior to commonly employed hydrogels and water bath treatments. This is due to the composition and morphology of ancient paper, which facilitates microgels penetration. For modern paper cleaning, performances are at least comparable to the other methods. In all cases, the application of microgels takes place on a time scale of a few minutes, opening the way for widespread use as a rapid and efficient cleaning protocol.

Di Napoli, B., Franco, S., Severini, L., Tumiati, M., Buratti, E., Titubante, M., et al. (2020). Gellan gum microgels as effective agents for a rapid cleaning of paper. ACS APPLIED POLYMER MATERIALS, 2(7), 2791-2801 [10.1021/acsapm.0c00342].

Gellan gum microgels as effective agents for a rapid cleaning of paper

Di Napoli, Benedetta;Micheli, Laura;Mazzuca, Claudia
;
2020-07-10

Abstract

Microgel particles have emerged in the past few years as a favorite model system for fundamental science and for innovative applications ranging from the industrial to biomedical fields. Despite their potentialities, no works so far have focused on the application of microgels for cultural heritage preservation. Here we show their first use for this purpose, focusing on wet paper cleaning. Exploiting their retentive properties, microgels are able to clean paper, ensuring more controlled water release from the gel matrix, in analogy to their macroscopic counterpart, i.e., hydrogels. However, differently from these, the reduced size of microgels makes them suitable to efficiently penetrate in the porous structure of the paper and to easily adapt to the irregular surfaces of the artifacts. To test their cleaning abilities, we prepare microgels made of Gellan gum, a natural and widespread material already used as a hydrogel for paper cleaning, and apply them to modern and ancient paper samples. Combining several diagnostic methods, we show that microgels performances in the removal of cellulose degradation byproducts for ancient samples are superior to commonly employed hydrogels and water bath treatments. This is due to the composition and morphology of ancient paper, which facilitates microgels penetration. For modern paper cleaning, performances are at least comparable to the other methods. In all cases, the application of microgels takes place on a time scale of a few minutes, opening the way for widespread use as a rapid and efficient cleaning protocol.
10-lug-2020
Pubblicato
Rilevanza internazionale
Articolo
Esperti anonimi
Settore CHIM/02 - CHIMICA FISICA
Settore CHIM/01 - CHIMICA ANALITICA
English
Con Impact Factor ISI
microgels; paper cleaning; Gellan gum; hydrogels; art preservation
Di Napoli, B., Franco, S., Severini, L., Tumiati, M., Buratti, E., Titubante, M., et al. (2020). Gellan gum microgels as effective agents for a rapid cleaning of paper. ACS APPLIED POLYMER MATERIALS, 2(7), 2791-2801 [10.1021/acsapm.0c00342].
Di Napoli, B; Franco, S; Severini, L; Tumiati, M; Buratti, E; Titubante, M; Nigro, V; Gnan, N; Micheli, L; Ruzicka, B; Mazzuca, C; Angelini, R; Missor...espandi
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2108/255736
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