Not Just Trash
Plastic bottles to mitigate arsenic
The method uses cheap, locally available plastics, coated with a chemical
Chopped up plastic bottles covered in a common chemical may be a simple and inexpensive method for removing arsenic from drinking water. A team of chemists at Monmouth University, United States, found that bits of plastic coated with cysteine, a common molecule found in foods, bind to arsenic. "Laboratory experiments have shown that the method has the potential to be very efficient and very cost effective," Tsanangurayi Tongesayi, lead author of the study and an assistant professor at the university told SciDev.Net. "The method uses plastics which are cheap and locally available," he added. "[It] is eco-friendly because it involves recycling of plastic bottles [and] is also safe because the chemical ingredients used are not toxic." In Bangladesh alone some 35 million people are exposed to arseniccontamination from drinking water, according to the Department of Public Health Engineering (DPHE), and estimates say around 100 million in the developing world are affected. Arsenic has been linked to a variety of health problems from stomach pains and blindness to various cancers one in five deaths in Bangladesh has been linked to arsenic exposure. Tongesayi presented his team's findings last week (31 August) at the annual meeting of the American Chemical Society. The researchers showed that the method can reduce the arsenic content from 20 parts per billion (ppb) two times higher than the safe standard set by the US Environmental Protection Agency for drinking water to 0.2 ppb. Tongesayi said they were now looking for a commercial partner to scale up the process. But Guy Howard, the UK Department for International Development's Research and Evidence Representative in South Asia, said: "Simply looking for a commercial partner is not the key to scaling up". The technology first has to be shown to work in field conditions, which may vary a lot and where other chemical species compete with arsenic for adsorption sites, he said.
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