Characterization of black pigment used in 30 BC fresco wall paint using instrumental methods and chemometry

Gatta, Tania; Campanella, Luigí; Coluzza, C.; Mambro, V Di; Postorino, P.; Tomassetti, M.; Visco, Giovanni

doi:10.1186/1752-153x-6-s2-s2

Cited by 10 publications

(4 citation statements)

References 9 publications

(9 reference statements)

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“…1590 and 1330 cm À1 , respectively, which indicates the presence of carbon. These wavenumbers depart slightly from previously reported values for Roman carbon pigments [17,20,25,26]; the differences, however, can be ascribed to differences in the conditions where the carbon material was obtained (particularly pressure and temperature, which have a decisive influence on crystallinity). Alternatively, the wavenumber differences may have arisen from experimental differences in recording the spectra; thus, the laser focal point can reach completely different temperatures during measurements, but the exact influence of variations has not yet been established.…”

Section: Black Colourcontrasting

confidence: 77%

Raman microspectroscopic analysis of decorative pigments from the Roman villa of El Ruedo (Almedinilla, Spain)

Mateos

Cosano

Mora

et al. 2015

Spectrochimica Acta Part A: Molecular and Biomolecular Spectros

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Section: Black Colourcontrasting

confidence: 77%

Raman microspectroscopic analysis of decorative pigments from the Roman villa of El Ruedo (Almedinilla, Spain)

Mateos

Cosano

Mora

et al. 2015

Spectrochimica Acta Part A: Molecular and Biomolecular Spectros

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“…Several studies have been devoted to the molecular characterization of carbon-based black pigments by means of different destructive and microdestructive techniques such as Raman, SEM-EDX, XRD, ICP-AES, and FTIR [ 3 – 7 ]. Generally, the diagnostic difficulties which lie in the characterization of this pigment are due to the various origins and/or manufacturing processes related to (i) characterization of carbonaceous phase [ 8 ] and (ii) identification of noncarbon constituents. Regarding this last point, the most obvious example of noncarbon constituents is the inorganic materials in animal bone pigments.…”

Section: Introductionmentioning

confidence: 99%

The Bone Black Pigment Identification by Noninvasive, In Situ Infrared Reflection Spectroscopy

Daveri

Malagodi

Vagnini

2018

Journal of Analytical Methods in Chemistry

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Two real case studies, an oil painting on woven paper and a cycle of mural paintings, have been presented to validate the use of infrared reflection spectroscopy as suitable technique for the identification of bone black pigment. By the use of the sharp weak band at 2013 cm−1, it has been possible to distinguish animal carbon-based blacks by a noninvasive method. Finally, an attempt for an eventual assignment for the widely used sharp band at 2013 cm−1 is discussed.

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“…On the other hand, recently we showed how thermal analysis, in particular thermogravimetry (TG-DTG), coupled with chemometric methods, can be a valid tool for the characterization and classification of several types of archaeological finds and cultural heritage, e.g. pigments [ 15 ], marbles [ 16 ], pottery [ 17 ], fossil bones [ 18 ], and so on. Therefore, we decided to apply thermogravimetric analysis also to several mortars sampled from different ancient Roman and Renaissance frescoes to determine whether, also in the case of ancient mortars, the simple combination of thermal analysis and chemometric methods could be used to obtain a fast but correct classification of ancient mortar samples of different ages.…”

Section: Introductionmentioning

confidence: 99%

Suitable classification of mortars from ancient Roman and Renaissance frescoes using thermal analysis and chemometrics

Tomassetti¹,

Marini²,

Campanella³

et al. 2015

Chemistry Central Journal

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BackgroundLiterature on mortars has mainly focused on the identification and characterization of their components in order to assign them to a specific historical period, after accurate classification. For this purpose, different analytical techniques have been proposed. Aim of the present study was to verify whether the combination of thermal analysis and chemometric methods could be used to obtain a fast but correct classification of ancient mortar samples of different ages (Roman era and Renaissance).ResultsAncient Roman frescoes from Museo Nazionale Romano (Terme di Diocleziano, Rome, Italy) and Renaissance frescoes from Sistine Chapel and Old Vatican Rooms (Vatican City) were analyzed by thermogravimetry (TG) and differential thermal analysis (DTA). Principal Component analysis (PCA) on the main thermal data evidenced the presence of two clusters, ascribable to the two different ages. Inspection of the loadings allowed to interpret the observed differences in terms of the experimental variables.ConclusionsPCA allowed differentiating the two kinds of mortars (Roman and Renaissance frescoes), and evidenced how the ancient Roman samples are richer in binder (calcium carbonate) and contain less filler (aggregate) than the Renaissance ones. It was also demonstrated how the coupling of thermoanalytical techniques and chemometric processing proves to be particularly advantageous when a rapid and correct differentiation and classification of cultural heritage samples of various kinds or ages has to be carried out.Graphical abstractPCA analysis of TG data allows differentiating mortar samples from different ages (Roman era and Renaissance).

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Characterization of black pigment used in 30 BC fresco wall paint using instrumental methods and chemometry

Cited by 10 publications

References 9 publications

Raman microspectroscopic analysis of decorative pigments from the Roman villa of El Ruedo (Almedinilla, Spain)

Raman microspectroscopic analysis of decorative pigments from the Roman villa of El Ruedo (Almedinilla, Spain)

The Bone Black Pigment Identification by Noninvasive, In Situ Infrared Reflection Spectroscopy

Suitable classification of mortars from ancient Roman and Renaissance frescoes using thermal analysis and chemometrics

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