(Nanowerk News) A cheap and simple process using natural fibers embedded with nanoparticles can almost completely rid water of harmful textile dyes in minutes, report Cornell and Colombian researchers who worked with native Colombian plant fibers.
Dyes, such as indigo blue used to color blue jeans, threaten waterways near textile plants in South America, India and China. Such dyes are toxic, and they discolor the water, thereby reducing light to the water plants, which limits photosynthesis and lowers the oxygen in the water.
The beaker on the left contains an indigo blue dye solution prior to treatment with modified fique fibers (dark brown). The beaker on the right shows the same indigo blue solution made clear, after modified fique fibers degraded the dye in only five minutes. The image also shows raw, untreated fique fibers (off-white) on the table.
“These molecules are contaminants that are very resilient to traditional water-purification processes, and we believe our biocomposite materials can be an option for their removal from waste water,” said study co-author, Marianny Combariza, a researcher at Colombia’s Universidad Industrial de Santander.
The research takes advantage of nano-sized cavities found in cellulose that co-author Juan Hinestroza, Cornell associate professor of fiber science, has previously used to produce nanoparticles inside cotton fibers.
The paper describes the method: Colombian fique plant fibers, commonly used to make coffee bags, are immersed in a solution of sodium permanganate and then treated with ultrasound; as a result, manganese oxide molecules grow in the tiny cellulose cavities. Manganese oxides in the fibers react with the dyes and break them down into non-colored forms.
In the study, the treated fibers removed 99 percent of the dye from water within minutes. Furthermore, the same fibers can be used repeatedly – after eight cycles, the fibers still removed between 97 percent and 99 percent of the dye.
“No expensive or particular starting materials are needed to synthesize the biocomposite,” said Combariza. “The synthesis can be performed in a basic chemistry lab.”
“This is the first evidence of the effectiveness of this simple technique,” said Hinstroza. “It uses water-based chemistry, and it is easily transferable to real-world situations.”
The researchers are testing their process on other types of pollutants, other fibers and composite materials. “We are working now on developing a low-cost filtering unit prototype to treat polluted waters,” said Combariza. “We are not only focused on manganese oxides, we also work on a variety of materials based on transition metal oxides that show exceptional degradation activity.”
Doctoral candidate Martha Chacón-Patiño is the paper’s lead author, and chemistry professor Cristian Blanco-Tirado is a co-author, both at Universidad Industrial de Santander.
Source: By Krishna Ramanujan, Cornell University
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