AsianScientist (Nov. 12, 2014) – In an effort to clean up hormone dysregulating pollutants found in the soil and waterways, scientists have come up with a novel way to break them down by recruiting help from nanoparticles and light. The study appears in the journal ACS Applied Materials & Interfaces.
Many pollutants with the potential to meddle with hormones—with bisphenol A (BPA) as a prime example—are already common in the environment. Known as endocrine disruptors, these pollutants have been shown to either mimic or block hormones in animals, including humans. That interference can cause reproductive and other health problems.
The compounds are used to make many household and industrial products and have been detected in soil, water and even human breast milk. Scientists have been working on ways to harness sunlight to break down endocrine disruptors to make them less of a health threat. But the approaches so far only work with ultraviolet light, which at a mere six percent of sunlight, means these methods are not very efficient.
Assistant Professor Nikhil R. Jana and Susanta Kumar Bhunia and from the Center for Advanced Materials of the Indian Association for the Cultivation of Science wanted to find a simple way to take advantage of visible light, which comprises 52 percent of sunlight.
For inspiration, the researchers turned to an already-developed graphene composite that uses visible light to degrade dyes. They tweaked the composite and loaded it with silver nanoparticles that serve as an antenna for visible light. When they tested it, the new material successfully degraded three different kinds of endocrine disruptors: phenol, BPA and atrazine.
They conclude that their composite is a promising way to harness visible light to break down these potentially harmful compounds and other organic pollutants.
The article can be found at: Bhunia and Jana (2014) Reduced Graphene Oxide-Silver Nanoparticle Composite as Visible Light Photocatalyst for Degradation of Colorless Endocrine Disruptors.
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Source: American Chemical Society.
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