Non-invasive in situ Examination of Colour Changes of Blue Paints in Danish Golden Age Paintings

David Buti, Anna Vila , Troels Folke Filtenborg, Kasper Monrad, Johanne Marie Nielsen, Laura Cartechini, Annalisa Chieli, Chiara Grazia, Francesca Gabrieli, Costanza Miliani

Research output: Contribution to conferencePosterResearchpeer-review

Abstract

A non-invasive study of some paintings containing areas of paint with a Prussian blue component has been conducted at the Statens Museum for Kunst. The in situ campaign has been carried out with a range of different spectroscopic portable techniques, provided by the MOLAB transnational access within the IPERION-CH European Infrastructure (http://www.iperionch.eu/). Visual examination of the paintings, highlights of the Danish Golden Age collection, revealed a significant degree of fading of the blue paint in areas exposed to the light, when compared with those protected by the rebate of the frame. Prussian blue is a hydrated iron(III) hexacyanoferrate(II) complex of variable composition depending on the manufacturing [1]. It has been reported that the method of preparation, as well as the use of white pigments or extenders to dilute the blue pigment, may be a factor contributing to its impermanence and behaviour following light exposure [1, 2]. Several papers have been published investigating this phenomenon [2, 3] on laboratory paint models. By means of X-ray fluorescence (XRF), Fourier-transformed infrared spectroscopy (FTIR), UV-vis-NIR reflectance spectroscopy and digital microscopy, the current in situ campaign aimed at mapping and understanding the degradation of Prussian blue and lead white admixtures using non-invasive portable techniques. The presence of Prussian blue was detected, with the MOLAB analytical means, in all the exposed, faded areas, although the colour had turned pale blue or almost white compared to the original tone. XRF indicated a very low and comparable amount of iron in both faded and non-faded areas. FTIR showed, in some cases, changes in the shape/position of the CN band profile of Prussian blue, and UV-vis-NIR results confirmed the presence in all cases of the blue pigment also highlighting some differences. The non-invasive analysis is complemented by the results collected on some micro-samples previously taken during restoration [4]. To rationalize the data and understand the degradation phenomenon occurring in the Danish Golden Age paintings, specifically conceived paint models have been prepared, aged under different conditions and investigated.
Acknowledgements
Financial support by the Access to Research Infrastructures activity in the H2020 Programme of the EU (IPERION CH Grant Agreement No. 654028) is gratefully acknowledged.
References
[1] Kirby, J. and Saunders, D., The National Gallery Technical Bulletin, 2004. 25(1).
[2] Samain, L., et al., Journal of Analytical Atomic Spectrometry, 2013. 28(4).
[3] Samain, L., et al., The Journal of Physical Chemistry C, 2013. 117(19).
[4] Monrad, K. et al., Science and Art. The painted surface, 2014. RSC, Chapter 17.
Original languageEnglish
Publication date2016
Publication statusPublished - 2016
Event4th International Congress Chemistry for Cultural Heritage - KIK-IRPA
Duration: 6 Jul 20168 Jul 2016
http://org.kikirpa.be/chemch2016/

Conference

Conference4th International Congress Chemistry for Cultural Heritage
LocationKIK-IRPA
Period06/07/201608/07/2016
Internet address

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