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New light on Leonardo Da Vinci's faces

Photo taken during the measurements on the Mona Lisa : X-ray fluorescence spectrometry was done directly on the paintings in the Louvre Museum. Copyright: V.A. Solé/ESRF

PRESS RELEASE - Paris, 15 July - How did Leonardo Da Vinci manage to paint such perfect faces? For the first time a quantitative chemical analysis has been done on seven paintings from the Louvre Museum (including the Mona Lisa) without extracting any samples. This shows the composition and thickness of each layer of material laid down by the painter. The results reveal that, in the case of glazes, thin layers of 1 to 2 micrometers have been applied. The study, led by the team of Philippe Walter, of the Laboratoire du Centre de Recherche et de Restauration des Musées de France (LC2RMF, CNRS/Ministère de la culture et de la communication), with the collaboration of the European Synchrotron Radiation Facility (ESRF) and the support of the Louvre Museum, is published today in the journal Angewandte Chemie International Edition.

Leonardo Da Vinci's paintings fascinate, partly due to a range of subtle optical effects that blur outlines, soften transitions and  blend shadows like smoke. Known as "sfumato", this technique is not  only the result of the genius of the artist but also of technical  innovations at the beginning of the 16th century. Minute observations,  optical measurements and reconstitutions have already described the  sfumato, but new analysis can confirm the procedure of this technique, especially related to how the gradation is done.

For the first time, Philippe Walter (LC2RMF) and his team, in collaboration with the ESRF and the Louvre Museum, have brought new insight on the sfumato thanks to a quantitative chemical study of the different painted layers. Seven paintings of Leonardo Da Vinci have been analysed without extraction, directly in the rooms of the Louvre Museum (Virgin of the Rocks, Mona Lisa, Saint John the Baptist,
Annunciation, Bacchus, Belle Ferronnière, Saint Anne, the Virgin, and the Child). The scientists concentrated on the study of the faces because they have the characteristics of the sfumato. They used a technique called X-ray fluorescence to determine the composition and thickness of each layer in nine faces (including Mona Lisa's) painted by Da Vinci throughout 40 years of career.

Representation of the superposition of layers in paintings in the face of Mona Lisa, on one light zone near the nose and the darker shadow of the hair. After treating the data, the thickness and concentration of pigments in the different layers. Copyright: C2RMF.


The scientists have also found different recipes used by Da Vinci to do the shadows on the faces. These recipes are characterized by a technique (the use of glaze layers or a very thin paint) and by the nature of the pigments or additives. In the case of the glazes, thin layers of 1 to 2 micrometres were applied to obtain a total thickness of no more than 30 to 40 micrometres. The results obtained in this study help to understand Da Vinci's search towards making his art  look alive.


Reference:
Viguerie L. et al, Revealing the sfumato technique of Leonardo da Vinci by X-ray  Fluorescence Spectroscopy, Angewandte Chemie International Edition, 2010, 49, DOI: 10.1002/anie.201001116.


Notes to the editors:
A glaze is a fine, translucid layer, mainly organic, which contains a little bit of pigment. The superposition of glazes allows to create depth and volume.

X-ray fluorescence spectroscopy is a chemical analytical method. It consists of making lighter an area in a painting using X-rays. Later, the material emits other X-rays (fluorescence) which are characteristic of the studied area.

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