A. V. Povolotskaya, D. V. Pankin, K. V. Sazanova, Yu. V. Petrov, N. S. Kurganov, A. A. Mikhailova, A. V. Povolotskiy, A. V. Kurochkin, A. D. Vlasov, S. L. Gonobobleva, A. A. Galushkin, E. G. Hosid, “Biodamage to paper by micromycetes under experimental conditions: a study by vibrational spectroscopy methods”, Optics and Spectroscopy, 2019, Volume 126, Issue 4,Pages <nobr>436

This article is cited in 3 papers

Spectroscopy of condensed matter

Biodamage to paper by micromycetes under experimental conditions: a study by vibrational spectroscopy methods

A. V. Povolotskaya^a, D. V. Pankin^a, K. V. Sazanova^b, Yu. V. Petrov^a, N. S. Kurganov^a, A. A. Mikhailova^a, A. V. Povolotskiy^a, A. V. Kurochkin^a, A. D. Vlasov^b, S. L. Gonobobleva^b, A. A. Galushkin^b, E. G. Hosid^b

^a Saint Petersburg State University
^b St. Petersburg Branch, Archive of the Russian Academy of Sciences

Abstract: Damage to paper (sulfate pulp, cotton half-stuff, and flax half-stuff) caused by the Aspergillus niger, A. sclerotiorum, and Penicillium chrysogenum fungi is investigated by Raman spectroscopy, Fourier-transform infrared spectroscopy, and scanning electron microscopy. It is shown that the use of application infrared Fourier-transform absorption spectroscopy allows one to identify the initial stages of damage from a decrease in the degree of crystallinity of the cellulose contained in paper. The absorption band near 900 cm$^{-1}$ is used as an indicator of early stages of damage. An increase in the amide II peak at 1550 cm$^{-1}$ and spectral changes in the region of valence vibrations of the C–H bonds (2800–3000 cm$^{-1}$) are observed in the case of heavier damage. The obtained data indicate that the vibrational spectroscopy techniques are promising in the study of damage of archive documents.

Received: 28.11.2018
Revised: 17.12.2018
Accepted: 18.12.2018

DOI: 10.21883/OS.2019.04.47513.344-18