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  • Water processing: Light helps degrade ho

    From ScienceDaily@1:317/3 to All on Fri Apr 22 22:30:48 2022
    Water processing: Light helps degrade hormones

    Date:
    April 22, 2022
    Source:
    Karlsruher Institut fu"r Technologie (KIT)
    Summary:
    Micropollutants in water often are hormones that accumulate in
    the environment and may have negative impacts on humans and animals.

    Researchers have now developed a process for the photocatalytic
    degradation of these pollutants when they flow through polymer
    membranes.

    Irradiation with light triggers a chemical reaction, as a result
    of which steroid hormones are degraded on the membranes coated
    with titanium dioxide.



    FULL STORY ========================================================================== Micropollutants in water often are hormones that accumulate
    in the environment and may have negative impacts on humans and
    animals. Researchers of Karlsruhe Institute of Technology (KIT)
    and Leibniz Institute of Surface Engineering (IOM) in Leipzig have
    now developed a process for the photocatalytic degradation of these
    pollutants when they flow through polymer membranes. It is presented
    in Nature Nanotechnology. Irradiation with light triggers a chemical
    reaction, as a result of which steroid hormones are degraded on the
    membranes coated with titanium dioxide.


    ========================================================================== Wherever people are living, hormones used in e.g. contraceptives or
    agriculture enter the wastewater. Steroid hormones, such as sex hormones
    and corticosteroids, may accumulate in the environment and adversely
    affect humans and animals, as they impair behavioral development and
    fertility. Sex hormones, for instance, may cause male fish to develop
    female sexual characteristics. It is therefore important to remove
    hormones, together with other micropollutants, from the wastewater before
    they enter the natural water cycle again, from which drinking water
    is extracted. "Supplying people with clean drinking water presently
    is one of the most important challenges worldwide," says Professor
    Andrea Iris Scha"fer, Head of KIT's Institute for Advanced Membrane
    Technology (IAMT). "Micropollutants represent a big threat for our
    future, as they impair our fertility and brain function." Inspired by
    Solar Cell Technology For years, Scha"fer has studied water processing
    by nanofiltration. For this purpose, she uses polymer membranes with nanometer-sized pores. However, nanofiltration requires high pressure
    and, hence, much energy. Moreover, micropollutants may accumulate in the polymer membrane materials and gradually enter the filtered water. Even
    if the pollutants are separated completely, a flow of concentrated
    pollutants may develop and require further treatment.

    Inspired by solar cell technology, the field of work of Professor Bryce S.

    Richards from KIT, Scha"fer had the idea to coat polymer
    membranes with titanium dioxide and to design photocatalytic
    membranes. Photocatalytically active titanium dioxide nanoparticles are
    applied to microfiltration membranes, whose pores are somewhat larger
    than in nanofiltration. Irradiation with light then triggers a chemical reaction, as a result of which steroid hormones are degraded on the
    membranes. Together with her team at IAMT and colleagues from the Leibniz Institute of Surface Engineering (IOM), Leipzig, Scha"fer has now realized
    her idea and presented the new technology inNature Nanotechnology.

    Catalyst for Water "We have developed a catalyst for water," Scha"fer summarizes her work. Using the photocatalytic polymer membranes, steroid hormones were removed in the continuous flow mode down to the analytical detection limit of 4 ng/l. In fact, the concentrations measured were very
    close to 1 ng/l, the limit given in the new Drinking Water Guideline of
    the WHO. The researchers are now optimizing their technology by reducing
    the time needed and energy consumed. Moreover, their focus lies on
    using natural light. In particular, their research is aimed at degrading
    other pollutants by photocatalysis, such as industrial chemicals like perfluoro-alkylated and polyfluorinated substances (PFAS) or pesticides,
    such as glyphosate. Another goal is to upscale the technology.


    ========================================================================== Story Source: Materials provided by
    Karlsruher_Institut_fu"r_Technologie_(KIT). Note: Content may be edited
    for style and length.


    ========================================================================== Journal Reference:
    1. Shabnam Lotfi, Kristina Fischer, Agnes Schulze, Andrea I. Scha"fer.

    Photocatalytic degradation of steroid hormone micropollutants by
    TiO2- coated polyethersulfone membranes in a continuous flow-through
    process.

    Nature Nanotechnology, 2022; 17 (4): 417 DOI:
    10.1038/s41565-022-01074-8 ==========================================================================

    Link to news story: https://www.sciencedaily.com/releases/2022/04/220422094315.htm

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