Capturing the Fugitive...in Art
Surface Enhanced Raman Spectroscopy (SERS) reveals invisible colors in art masterpieces
April 4, 2011
What do Winslow Homer's "For to Be a Farmer's Boy" (1887) and Vincent van Gogh's "The Bedroom" (1889) have in common?
First, they are both displayed at the Art Institute of Chicago (AIC). Homer's painting represents a high point in the career of America's premiere watercolorist, while Van Gogh's painting is perhaps one of the most recognizable paintings in the world. However, they also share a key physical trait.
"These breathtaking artworks are both painted with colorants that are sensitive to light, or, as we say in museums, they are 'fugitive,' meaning they quickly vanish if exposed to too much light," says Francesca Casadio, A.W. Mellon senior conservation scientist at AIC. "Fading can dramatically change the color balance of fragile works of art and go so far as to obfuscate, in part, the artist's intended effect."
In "For to Be a Farmer's Boy," the sky is starkly blank--gone are the vibrant colors that Homer is known to have used for his evocative renditions of skies and seas. Yet, through research funded by the National Science Foundation's (NSF) Chemistry and Materials Research in Cultural Heritage Science (CHS) program, a new story is being revealed about Homer's painting.
After painstakingly peering through binocular microscopes, art conservators working behind the scenes at AIC discovered some microscopic particles of colored pigments trapped in the artwork's paper fibers. Precise identification of such pigments was key to "recognizing the implicit emotional, narrative and symbolic content" of the artist's work, according to AIC curator Martha Tedeschi.
Effectively identifying the red "lake" pigments that Homer used is difficult using conventional analytical techniques. For example, Raman spectroscopy, normally used to fingerprint artists' palettes, is strongly affected by the overwhelming fluorescence of natural colorants.
Nanotechnology comes to the rescue
Now, art historians and art conservators have one more tool in their arsenal to preserve our cultural treasures: surface enhanced Raman spectroscopy (SERS). Although this technique has been around for almost 30 years, only recently has SERS fully realized its potential, thanks to the nanotechnology boom.
SERS is an ideal technique for art analysis--it is highly sensitive and can detect vanishingly small amounts of organic pigments that have long eluded identification by other approaches. Yet, only a handful of research groups are working on this application.
"Imagine a child in a sandbox with toys. The toys are the molecules--we want to study them, but they are hidden under the sand and you cannot see them," explains Richard P. Van Duyne, the Charles E. and Emma H. Morrison Professor of Chemistry at Northwestern University, who is best known for the discovery of SERS. "Our technique gets rid of the sand so that you can see the toys and identify what they are."
By using a colloidal suspension of silver nanoparticles as a "performance enhancing drug," researchers, for the first time, can identify natural, organic colorants on a single grain of pigment otherwise invisible to the naked eye.
Indeed, only a handful of pigment particles were available from the Homer watercolor. Compared to reference 19th century watercolor pigments available at AIC, these colorants were identified as Indian purple (cochineal precipitated with copper sulfate) and madder purple, two natural dyestuffs derived from an insect and vegetable-root source, respectively.
The results indicate that in Homer's "For to Be a Farmer's Boy," the "empty" sky once depicted a vibrant autumn sunset, with organic purples and reds, in addition to inorganic reds and yellows. Although these results are promising, there is still a need to improve the identification of pigments from severely faded paintings. This is because pigment particles are normally applied in a complex medium, that increases the fluorescence background of the spectra, much like adding more sand to the sandbox covers up the toys (molecules) below.
In order to reduce the fluorescence, research professor Nilam Shah, also of Northwestern, will be developing ad hoc-tailored nanoparticles optimized to resonate with infrared lasers, which are less damaging to the artworks, and more universal. These next-generation nanoparticles hold promise as tools to unlock information on dyes, pigments and binding media, as present in Van Gogh's "The Bedroom."
Capturing the fugitive
Typically, researchers who use SERS for materials identification search an unknown compound against a database of references, much like matching fingerprints of known criminals to forensic evidence collected at a crime scene.
Thanks to the theoretical expertise of George Schatz, Morrison Professor of Chemistry at Northwestern, this painstaking database search will no longer be a limiting factor. In fact, researchers will be able to calculate from theory not only the expected SERS spectrum of unknown fugitive dyes, but also the telltale signs of dyes disappearing after prolonged exposure to light.
Taking into account the pigment identification by SERS and nuances of shade and tone that are typical of Homer's paint handling, art conservators proposed a digital re-creation of the Homer watercolor. By shining laser light on particles buried in the artwork, SERS investigators have now unearthed the materials evidence that allows viewers to truly experience the hues of Homer's faded sunsets for the first time in modern times.
Substantial seed funding for this research was also provided by the Andrew W. Mellon Foundation.
-- Francesca Casadio, The Art Institute of Chicago, firstname.lastname@example.org
This Behind the Scenes article was provided to LiveScience in partnership with the National Science Foundation.
Laboratory replicas of watercolor brushstrokes before (below) and after (above) fading in sunlight.
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Depictions of nanostructured surfaces for SERS made of gold (Au) L trimer nanoantennas.
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Digital re-creation of "For to Be a Farmer's Boy" before fading, and matched to original.
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Richard Van Duyne
Art Institute of Chicago