Thermal decomposition of lead white for radiocarbon dating of paintings

2019

Article référencé dans le Web of Science WOS:000504755600021

Beck L., Messager C., Coelho S., Caffy Ingrid, Delque-Kolic E., Perron M., Mussard S., Dumoulin J. P., Moreau C., Gonzalez V., Foy E., Miserque F., Bonnot-Diconne C.

Radiocarbon, 2019, 61 (5), p. 1345-1356 ISSN 0033-8222

Radiocarbon 2018 Conference, Trondheim (NOR), 2018/06/17-22

Lead carbonates were used as cosmetic and pigment since Antiquity. The pigment, known as lead white, was generally composed of cerussite and hydrocerussite. Unlike most ancient pigments, lead white was obtained by a synthetic route involving metallic lead, vinegar and organic matter. Fermentation of organic matter produces heat and CO2 emission, leading to the formation of carbonates. As lead white is formed by trapping CO2, radiocarbon (C-14) dating can thus be considered. We have developed a protocol to prepare lead white. We selected modern pigments for the experiment implementation and ancient cosmetic and paintings for dating. After characterization of the samples by XRD, thermal decomposition of cerussite at various temperatures was explored in order to select the appropriate conditions for painting samples. CO2 extraction yield, SEM and XPS were used to characterize the process. Thermal decomposition at 400 degrees C was successfully applied to mixtures of lead white with other paint components (oil as binder, calcite as filler/extender) and to historical samples. We obtained radiocarbon measurements in agreement with the expected dates, demonstrating that thermal decomposition at 400 degrees C is efficient for a selective decomposition of lead white and that paintings can be directly C-14-dated by dating lead white pigment.

Sciences fondamentales / Techniques d'analyse et de recherche [020] ; Géologie et formations superficielles [064] ; Sociétés, développement culturel [112]

Fonds IRD [F B010077788]

fdi:010077788