Comparison of four mobile, non‐invasive diagnostic techniques for differentiating glass types in historical leaded windows: MA‐XRF, UV–Vis–NIR, Raman spectroscopy and IRT

This paper critically compares the performance of four non‐invasive techniques that match the accuracy, flexibility, time‐efficiency, and transportability required for in situ characterization of leaded glass windows: macroscopic X‐ray fluorescence imaging (MA‐XRF), UV–Vis–NIR, Raman spectroscopy, a...

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Bibliographic Details
Published in:X-ray spectrometry 2021-08, Vol.50 (4), p.293-309
Main Authors: Cagno, Simone, Van der Snickt, Geert, Legrand, Stijn, Caen, Joost, Patin, Mathilde, Meulebroeck, Wendy, Dirkx, Yarince, Hillen, Michaël, Steenackers, Gunther, Rousaki, Anastasia, Vandenabeele, Peter, Janssens, Koen
Format: Article
Language:English
Subjects:
Chromophores
Cobalt
Decoloring
Fluorescence
Infrared imaging
Infrared spectroscopy
Manganese
Raman spectroscopy
Spectroscopy
Spectrum analysis
Thermography
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Summary:This paper critically compares the performance of four non‐invasive techniques that match the accuracy, flexibility, time‐efficiency, and transportability required for in situ characterization of leaded glass windows: macroscopic X‐ray fluorescence imaging (MA‐XRF), UV–Vis–NIR, Raman spectroscopy, and infrared thermography (IRT). In order to compare the techniques on equal grounds, all techniques were tested independently of each other by separate research groups on the same historical leaded window tentatively dated to the 17th century, without prior knowledge. The aim was to assess the ability of these techniques to document the conservation history of the window by classifying and grouping the colorless glass panes, based on differences in composition. IRT, MA‐XRF and UV–Vis–NIR spectroscopy positively distinguished at least two glass groups, with MA‐XRF providing the most detailed chemical information. In particular, based on the ratio between the network modifier (K) and network stabilizer (Ca) and on the level of colorants and decolorizers (Fe, Mn, As), the number of plausible glass families could be strongly reduced. In addition, UV–Vis–NIR detected cobalt at ppm level and gave more specific information on the chromophore Fe2+/Fe3+ ratio. Raman spectroscopy was hampered by fluorescence caused by the metal ions of the decolorizer in most of the panes, but nevertheless identified one group as HLLA.
ISSN:0049-8246
1097-4539
DOI:10.1002/xrs.3185