Magazine article Science News

Color Trails: Natural Dyes in Historic Textiles Get a Closer Look

Magazine article Science News

Color Trails: Natural Dyes in Historic Textiles Get a Closer Look

Article excerpt

Chemists have developed a way to extract natural dyes from ancient textiles while preserving the unique chemical characteristics of each dye. The technique enables the researchers to then identify the plant species from which the colorants came.

Determining the source of dyes could open a new window on how ancient people used natural resources, says chemist Richard Laursen of Boston University. What's more, since plants grow within set geographic ranges, characterizing natural dyes could help archaeologists trace the movements of tribes or determine trade relations between distant communities.

Laursen and his colleague Xian Zhang, also of Boston University, used their new chemical method to analyze yellow plant dyes called flavonoids. Many dye flavonoids have attached sugar molecules that are specific to each plant.

Traditionally, textile manufacturers have used a substance known as a mordant to bind dye compounds to fibers. "It's a practice that's been used for thousands of years," says Laursen. First, the textile is soaked in a solution containing the mordant, which, in most cases, is an aluminum salt. Aluminum ions penetrate the fabric's fibers, and then, in a second bath, dye molecules bind to the ions. The result is a colored textile that holds on to its dye.

To extract the natural dyes from historical textiles for analysis, researchers have typically relied on harsh chemicals, such as hydrochloric acid, to separate the dye from the mordant. However, this process also strips away the flavonoids' plant-identifying sugar molecules. "You lose a lot of the information this way," says Laursen.

As they report in the April 1 Analytical Chemistry, he and Zhang extracted yellow dyes from test fabrics using different, milder reagents: ethyl-enediaminetetraacetic acid (EDTA) and formic acid. …

Search by... Author
Show... All Results Primary Sources Peer-reviewed


An unknown error has occurred. Please click the button below to reload the page. If the problem persists, please try again in a little while.