Mona Lisa’s Secret: X-ray fluorescence spectroscopy unveils Da Vinci’s astounding sfumato technique
This is what we learn in a article by Philippe Walter in the journal Angewandte Chemie published by Wiley.
Mona Lisa’s mystical smile still puts viewers under a spell. Leonardo Da Vinci attained the perfection and finesse of his paintings with a technique he himself perfected. This technique is called sfumato (from the Italian for “foggy”). In this method, several layers of color are applied over each other. The colors meld together and lend the face a mysterious glow. Philippe Walter and his team at the Louvre in Paris have now examined the faces of seven paintings signed by the master with a new non-invasive X-ray fluorescence spectroscopy technique. As the scientists report in the journal Angewandte Chemie, Mona Lisa’s secret lies in many whisper-thin layers of a transparent glaze.
Da Vinci’s technique is fascinating. The gradation of color from light to dark is barely perceptible and looks natural. “Neither brushstroke nor contour is visible: lights and shades are blended in the manner of smoke,” says Walter. The details of how the sfumato technique worked have not been determined before. Walter and his colleagues have now used a non-destructive technique, X-ray fluorescence spectroscopy, to track down the secret. The paintings were irradiated with X-rays. Every chemical element then gives off a characteristic fluorescent light, which allows the element to be quantified.
“Until now, the analysis had remained qualitative, because all the pigment layers were considered simultaneously,” reports Walter. “New technical advances and software have now allowed us to resolve cross-sections of the layers and to quantitatively analyze the composition and thickness of the individual pigment layers.” The seven paintings examined—including the Mona Lisa—span over 40 years of Da Vinci’s work.
In the Mona Lisa, the darker areas arose because a manganese-containing layer was applied more thickly than in the lighter areas. The underlying layers containing lead white are equally thick all over. In a painting dating from about ten years earlier, “Belle Ferronnière”, things are different: Here the shade effects are not the result of a glaze shining through; instead, Da Vinci seems to have used a covering layer of color—dark pigments in a classic oil technique,” says Walter. “The master continuously improved his painting technique. In his later paintings he was then able to produce translucent layers made of films of an organic medium ranging from 30 to only a few micrometers in thickness—an amazing achievement even by today's standards.” The long drying time of the individual layers, lasting weeks and months, explains why Da Vinci worked on the Mona Lisa for over four years, leaving the painting unfinished, according to texts from the Renaissance period.
About the Author of the article: Philippe Walter, Centre de Recherche et de Restauration des Musées de France, Paris (France)
More information in Angewandte Chemie International Edition, a journal published by Wiley (ISSN: 1433-7851)
Angewandte Chemie is a journal of the Gesellschaft Deutscher Chemiker (German Chemical Society, GDCh).
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