A blue can conceal another! Noninvasive multispectroscopic analyses of mixtures of indigo and Prussian blue

Biron, Carole; Mounier, Aurélie; Bourdon, Gwénaëlle Le; Servant, Laurent; Chapoulie, Rémy; Daniel, Floréal

doi:10.1002/col.22467

Cited by 24 publications

(15 citation statements)

References 27 publications

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“…The analysis of hyperspectral data suggests the use of Prussian blue in plate 9. The characteristic spectral curve in blue regions (Figure 9), in particular the local minimum around 675 nm and the inflection point around 554 nm, are consistent with characteristic spectra for Prussian blue published in other identifications of Prussian blue [43][44][45]. Prussian blue did not become commercially available until 1724, seven years after Merian's death, confirming that the coloring could not have been applied during Merian's lifetime [29].…”

Section: Bluesupporting

confidence: 80%

Multi-Modal, Non-Invasive Investigation of Modern Colorants on Three Early Modern Prints by Maria Sibylla Merian

et al. 2021

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Northwestern University’s Charles Deering McCormick Library of Special Collections owns three hand-colored copperplate engravings that once belonged to an edition of Matamorphosis Insectorum Surinamensium by artist-naturalist Maria Sibylla Merian (1647–1717). Because early modern prints are often colored by early modern readers, or modern collectors, it was initially unclear whether the coloring on these prints should be attributed to the print maker, to subsequent owners or collectors, or to an art dealer. Such ambiguities posed challenges for the interpretation of these prints by art historians. Therefore, the prints underwent multi-modal, non-invasive technical analysis to assess the date and material composition of the prints’ coloring. The work combined several different non-invasive analytical techniques: hyperspectral imaging (HSI), macro X-ray fluorescence (MA-XRF) mapping, surface normal mapping with photometric stereo, visible light photography, and visual comparative art historical analysis. As a result, the prints and paper were attributed to a late eighteenth-century posthumous edition of Merian’s work while the colorants were dated to the early twentieth century. This information enables more thorough contextualization of these prints in their use as teaching and research tools in the University collection.

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Section: Bluesupporting

confidence: 80%

Multi-Modal, Non-Invasive Investigation of Modern Colorants on Three Early Modern Prints by Maria Sibylla Merian

et al. 2021

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“…Previous studies of these prints using fiber optic reflectance spectroscopy (FORS) highlight the use of Prussian blue/indigo mixtures in the blue outlines [9][10][11]. As demonstrated in these studies [9,12], FORS is well suited to differentiate Prussian blue from indigo as the two colorants show different reflection spectra. Indigo shows a maximum absorption around 660 nm and reflects most of the light in the 700-950 nm range, while Prussian blue absorbs most of the radiations in both the visible and near infrared ranges.…”

Section: Introductionmentioning

confidence: 96%

“…Indigo shows a maximum absorption around 660 nm and reflects most of the light in the 700-950 nm range, while Prussian blue absorbs most of the radiations in both the visible and near infrared ranges. When mixed, the contributions of both colorants is observed as follow: a maximum absorption at around 660 nm and an increased absorption in the 700-950 nm range compared to pure indigo, due to the absorption of the Prussian blue in this range [9,12].…”

Section: Introductionmentioning

confidence: 99%

Beyond the connoisseurship approach: creating a chronology in Hokusai prints using non-invasive techniques and multivariate data analysis

et al. 2020

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This study combines scientific and connoisseurship approaches to establish a production chronology of 141 woodblock prints from Katsushika Hokusai’s series Thirty-Six Views of Mount Fuji belonging to different cultural institutions in Europe and the United States. In order to create this chronology, the reflectance spectroscopy (FORS) signature of the indigo/Prussian blue mixture of the key-block printed outlines was measured and compared using multivariate data analysis. This approach yielded 9 clusters of prints, each one presenting slightly different FORS features, and therefore, different Prussian blue/indigo mixtures. The connoisseurship approach was then applied to impressions of the same print found across the 9 clusters. This allowed for arrangement of the clustered prints according to their production time, resulting in a comprehensive timeline for the 141 prints examined. To date, this work represents the only systematic study of such a large corpus of Japanese/Hokusai woodblock prints integrating chemical analysis and statistical treatment of data with careful visual examination of the prints. The result is a novel approach to creating a chronology for these objects. Our study easily differentiated between early nineteenth and early twentieth century prints as well as between various printing batches/clusters. Creating a chronology of such an important print series is also crucial to understand the evolution of artist and printing studio practices in late nineteenth-century Japan, a period of great economic and cultural changes.

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“…Imaging techniques are well-suited for the study of Japanese prints due to their planarity and their relatively simple pigments and colorants composition, which are often applied in one single layer and, regularly, not mixed 16 . As a result, multispectral imaging (MSI) has been applied several times to the study of Japanese woodblock prints 6,14,[17][18][19] . Combined with spectroscopic single point analytical techniques, this approach generally produces reliable results in terms of identification of mineral pigments 4,5,14,15,17 and, to some extent, organic colorants 14,[19][20][21] .…”

mentioning

confidence: 99%

Integrating liquid chromatography mass spectrometry into an analytical protocol for the identification of organic colorants in Japanese woodblock prints

Vermeulen

Tamburini

Müller

et al. 2020

Sci Rep

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Three Japanese woodblock prints from the Edo period (1603–1868) underwent a scientific investigation with the aim of understanding the changes in the colorants used in Japanese printing techniques. A multi-analytical approach was adopted, combining non-invasive techniques, such as fiber optic reflectance spectroscopy (FORS), Raman spectroscopy, multispectral imaging (MSI), and macro X-ray fluorescence (MA-XRF) with minimally invasive surface-enhanced Raman spectroscopy (SERS). The results enabled many of the pigments to be identified and their distribution to be studied, apart from two shades of purple of organic composition. Consequently, the potential of high-pressure liquid chromatography tandem mass spectrometry (HPLC–MS/MS) was explored for the first time with application to Japanese woodblock prints. The intrinsic sensitivity of the instrument and an effective extraction protocol allowed us to identify a mixture of dayflower (Commelina communis) blue and safflower (Carthamus tinctorius) red in purple samples constituted of 2–3 single fibers. In addition to the innovative integration of MA-XRF and HPLC–MS/MS to investigate these delicate artworks, the study concluded on the use of traditional sources of colors alongside newly introduced pigments in late Edo-period Japan. This information is extremely important for understanding the printing practices, as well as for making decisions about display, conservation, and preservation of such artworks.

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A blue can conceal another! Noninvasive multispectroscopic analyses of mixtures of indigo and Prussian blue

Cited by 24 publications

References 27 publications

Multi-Modal, Non-Invasive Investigation of Modern Colorants on Three Early Modern Prints by Maria Sibylla Merian

Multi-Modal, Non-Invasive Investigation of Modern Colorants on Three Early Modern Prints by Maria Sibylla Merian

Beyond the connoisseurship approach: creating a chronology in Hokusai prints using non-invasive techniques and multivariate data analysis

Integrating liquid chromatography mass spectrometry into an analytical protocol for the identification of organic colorants in Japanese woodblock prints

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