Automated Phasor Segmentation of Fluorescence Lifetime Imaging Data for Discriminating Pigments and Binders Used in Artworks

Author:

Mattana SaraORCID,Dal Fovo AliceORCID,Lagarto João Luís,Bossuto Maria Chiara,Shcheslavskiy Vladislav,Fontana Raffaella,Cicchi RiccardoORCID

Abstract

The non-invasive analysis of fluorescence from binders and pigments employed in mixtures in artworks is a major challenge in cultural heritage science due to the broad overlapping emission of different fluorescent species causing difficulties in the data interpretation. To improve the specificity of fluorescence measurements, we went beyond steady-state fluorescence measurements by resolving the fluorescence decay dynamics of the emitting species through time-resolved fluorescence imaging (TRFI). In particular, we acquired the fluorescence decay features of different pigments and binders using a portable and compact fibre-based imaging setup. Fluorescence time-resolved data were analysed using the phasor method followed by a Gaussian mixture model (GMM) to automatically identify the populations of fluorescent species within the fluorescence decay maps. Our results demonstrate that this approach allows distinguishing different binders when mixed with the same pigment as well as discriminating different pigments dispersed in a common binder. The results obtained could establish a framework for the analysis of a broader range of pigments and binders to be then extended to several other materials used in art production. The obtained results, together with the compactness and portability of the instrument, pave the way for future in situ applications of the technology on paintings.

Funder

Italian Ministry of External Affairs and International Cooperation and Russian Ministry of Science and Education

Regione Toscana

Publisher

MDPI AG

Subject

Chemistry (miscellaneous),Analytical Chemistry,Organic Chemistry,Physical and Theoretical Chemistry,Molecular Medicine,Drug Discovery,Pharmaceutical Science

Reference34 articles.

1. Principles of Fluorescence Spectroscopy;Lakowicz,2008

2. Ultraviolet and Fluorescence Recording;Hansell,1984

3. Fluorescence lifetime imaging for the analysis of works of art: application to fresco paintings and marble sculptures

4. Fluorescence of paint and varnish layers (part III);de la Rie;Stud. Conserv.,1982

5. Photoluminescence imaging of modern paintings: there is plenty of information at the microsecond timescale

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