2016
DOI: 10.1039/c6ja00134c
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Visualization of As(iii) and As(v) distributions in degraded paint micro-samples from Baroque- and Rococo-era paintings

Abstract: Orpiment and realgar are two artists' pigments that appear not to be stable upon light exposure, quickly degrading to arsenic trioxide and arsenate. Their identification appears challenging but can be overcome by the use of synchrotron based techniques such as μ-XANES.

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Cited by 49 publications
(43 citation statements)
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“…The use of cinnabar/vermillion and arsenic sulfide pigments, which were present in all the corresponding red and yellow areas of the objects investigated, is in agreement with historical records [1,4,5]. Nevertheless, evidence of production of amorphous arsenic sulfide by sublimation of natural orpiment was found [50,51,62], indicating that natural orpiment was not the only arsenic sulfide pigment used. Moreover, green is usually reported to be a mixture of orpiment and indigo (Table 1), but no indigo was found in the green areas of these objects.…”
Section: Discussionsupporting
confidence: 86%
“…The use of cinnabar/vermillion and arsenic sulfide pigments, which were present in all the corresponding red and yellow areas of the objects investigated, is in agreement with historical records [1,4,5]. Nevertheless, evidence of production of amorphous arsenic sulfide by sublimation of natural orpiment was found [50,51,62], indicating that natural orpiment was not the only arsenic sulfide pigment used. Moreover, green is usually reported to be a mixture of orpiment and indigo (Table 1), but no indigo was found in the green areas of these objects.…”
Section: Discussionsupporting
confidence: 86%
“…In Raman spectroscopy, the contributions observed between 100 and 600 cm −1 correspond to natural arsenic sulfide in prints by Hokusai (A-C) and to artificial arsenic sulfide in the print by Kunisada (D); the one at 1573 indicates indigo and the pair of contributions between 2095 and 2155 cm −1 correspond to Prussian blue profile and particular contributions are characteristic for the various bending and stretching bonds found in amorphous arsenic sulfide pigments, as reported in previous arsenic sulfide characterization studies [14,22,23]. While not previously reported as a characteristic for amorphous arsenic sulfide pigments, the increase in the 100-250 cm −1 region has consistently been noted in non-background corrected spectra in identification studies of amorphous arsenic sulfide pigments [8,10,14,20,22]. This can therefore be used along the main Raman contributions as a secondary indication that amorphous arsenic sulfide pigment is present.…”
Section: Resultssupporting
confidence: 77%
“…Nonetheless, all pigments and colorants identified in print D will be reported. All Band assignments for natural orpiment and amorphous arsenic sulfides have been published previously and will therefore not be discussed here [20,21]. It is important to note that inflection points in FORS are not clear identifiers for yellow colorants-including orpiment-as the they can shift depending on the color of the support and change if the yellow is faded.…”
Section: Resultsmentioning
confidence: 99%
“…However, it remains difficult to conclude on the nature of arsenic sulfide pigments based on microscopic and elemental analyses only as the simultaneous presence of arsenic and sulfur may correspond to several arsenic sulfide pigments. Therefore, due to the distinctive vibrational signatures of arsenic sulfide pigments, Raman measurements on the arsenic sulfide particles were undertaken (Figure ).…”
Section: Resultsmentioning
confidence: 99%