Using sugar molecules to make cotton material glow

Using sugar molecules to make cotton material glow
Digital camera image from in vitro cotton model after incorporation of exogenous molecules with new functionalities. Credit: Filipe Natalio

(Phys.org)—A team of researchers from Germany, Israel and Austria has developed a process for imbuing cotton fibers with material that glows under fluorescent light. In their paper published in the journal Science, the team describes their process, how well it works and other applications under which it might prove useful.

As scientists continue to look for ways to create wearable electronic products, some unique ideas have emerged. One of them is adding material to the water used by a growing cotton plant to endow it with desirable properties. In this new effort, the researchers found that by combining two molecules, one that is naturally carried by plants to its cells and another that causes fluorescence, they could produce plant fibers with fluorescent properties. That fiber could then be used the same way it has for thousands of years, to make cloth. In this case, cloth that glows under a fluorescent light.

In practice, the researchers grew cotton plants in water, then harvested their ovules, which is the part of the plant that makes the fibers. They cultured the ovules separately and eventually fed them water doctored with the desired molecules. After 20 days, the cotton was harvested and tested. The researchers found that approximately 5 percent of the molecules had made their way to the fibers—enough to make them glow green when exposed to fluorescent light.

Time lapse movie of the in vitro cotton model showing the development of fibers and integration of the fluorescent molecule. The time lapse movie was taken for 20 days with 1 image per hour. This video is shown under normal light. Credit: Filipe Natalio

The team reports that they spent a significant amount of time testing the resulting to prove that the molecules were, indeed, inside the fiber cells and not just coating them—an important factor, because it means the will not be carried away when the fabric is washed.

Besides the coolness factor, the process offers the possibility of adding other features to wearable materials. To demonstrate, the researchers used the same process to introduce a magnetic molecule instead of one with fluorescent properties, and created cotton cloth with magnetic properties. Magnetism in cloth, the group notes, could possibly be useful for storing data from electronic devices. They note that the could also be used with other materials made from such as bamboo or flax.

Time lapse movie of the in vitro cotton model showing the development of fibers and integration of the fluorescent molecule. The time lapse movie was taken for 20 days with 1 image per hour. This video is shown under UV light to trace the fate of the fluorescent molecule. Credit: Filipe Natalio
  • Using sugar molecules to make cotton material glow
    Microscopic image of the cotton fibers after incorporation of the fluorescent exogenous molecule. This image was taken under a binocular under UV light showing the fluorescent fibers. Credit: Filipe Natalio
  • Using sugar molecules to make cotton material glow
    Image that shows a cotton fruit and different colors to show that we can provide functionalities to the cotton. Credit: Filipe Natalio

More information: Filipe Natalio et al. Biological fabrication of cellulose fibers with tailored properties, Science (2017). DOI: 10.1126/science.aan5830

Abstract
Cotton is a promising basis for wearable smart textiles. Current approaches that rely on fiber coatings suffer from function loss during wear. We present an approach that allows biological incorporation of exogenous molecules into cotton fibers to tailor the material's functionality. In vitro model cultures of upland cotton (Gossypium hirsutum) are incubated with 6-carboxyfluorescein–glucose and dysprosium–1,4,7,10-tetraazacyclododecane-1,4,7,10-tetraacetic acid–glucose, where the glucose moiety acts as a carrier capable of traveling from the vascular connection to the outermost cell layer of the ovule epidermis, becoming incorporated into the cellulose fibers. This yields fibers with unnatural properties such as fluorescence or magnetism. Combining biological systems with the appropriate molecular design offers numerous possibilities to grow functional composite materials and implements a material-farming concept.

Journal information: Science

© 2017 Phys.org

Citation: Using sugar molecules to make cotton material glow (2017, September 15) retrieved 29 March 2024 from https://phys.org/news/2017-09-sugar-molecules-cotton-material.html
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