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Titanium Dioxide Hybrid Ion Exchange Resin for Simultaneously Removing Arsenic & Nitrate

Background: Ion exchange is widely used within industry and public infrastructure to remove metallic organic or inorganic particles from water. Ion exchange filters contain activated carbon or spongy polymer beads called resin which have been tailored to remove a specific group of contaminants with similar chemistry. Hybrid ion exchange resins are capable of simultaneously removing multiple contaminant groups. Currently the only hybrid ion exchange resins are infused with iron oxide to remove groups containing arsenic and nitrate two chemically distinct carcinogenic pollutants that are commonly found in pesticide and fertilizer runoff. However iron oxide lacks chemical stability in lower pH water which shortens its lifespan and restricts its capacity to absorb contaminants. Technology Description: Researchers at ASU have developed a fast and inexpensive method of synthesizing hybrid ion exchange resins infused with titanium dioxide (TiO2) nanoparticles that are robust for low pH water. In order to generate the nanoparticles microwaves are applied to commercially available resins that have been submersed in water softened with inexpensive titanium precursor. The microwaves accelerate the reaction to 5 minutes at 100°C but the TiO2 nanoparticles can also be synthesized by 24 hour hydrolysis at 80°C. This fabrication process is very simple it can be applied to any ion-exchange or carbon-based sorbent resin and zirconium dioxide (ZrO2) can even be substituted for TiO2. Ashing the resin then produces TiO2 or ZrO2 media that can be used as a photocatalyst or an antimicrobial coating. This method cuts costs by saving time material and energy and is readily adaptable for large scale manufacturing. Applications: 1) Antimicrobial Coatings 2) Groundwater Decontamination 3) Hybrid Ion Exchange Membranes 4) Municipal wastewater treatment 5) Photocatalysis

Benefits:

1) Economical – Inexpensive titanium precursor provides more bang for your buck 2) Efficient – Microwaves save time and energy needed to create TiO2 nanoparticles 3) Practical – Chemically stable in both high and low pH water 4) Versatile 5) Can be applied to any commercially available ion-exchange or activated carbon resin 6) Zirconium dioxide can be substituted for TiO2 7) Multiple heating options for the hydrolysis reaction

Date of release: