Nikolaos Voulvoulis scite author profile

Nanostructures of zinc oxide (ZnO) are at the forefront of application-driven nanotechnology because of their unique optical, piezoelectric, semiconducting, and antibacterial properties. Understanding nanomaterial transformations within wastewater treatmentplants is an important step to better predict their potential impact on the environment. Here, spatially resolved, in situ nano-X-ray fluorescence micro scopy is applied to directly observe nanometer-scale dissolution, morphological, and chemical evolution of individual and aggregated ZnO nanorods in complex "real-world" conditions: influent water and primary sludge collected from a municipal wastewater system. A complete transformation of isolated ZnO nanorods into ZnS occurs after only 1 hour in influent water, but larger aggregates of the ZnO nanorods transform only partially, with small contributions of ZnS and Zn-phosphate (Zn 3 (PO 4 ) 2 ) species, after 3 hours. Transformation of aggregates of the ZnO nanorods toward mixed ZnS, Zn adsorbed to Fe-oxyhydroxides, and a large contribution of Zn 3 (PO 4 ) 2 phases are observed during their incubation in primary sludge for 3 hours. Discrete, isolated ZnO regions are imaged with unprecedented spatial resolution, revealing their incipient transformation toward Zn 3 (PO 4 ) 2 . Passivation by transformation(s) into mixtures of less soluble phases may influence the subsequent bioreactivity of these nanomaterials. This work emphasizes the importance of imaging the nanoscale chemistry of mixtures of nanoparticles in highly complex, heterogeneous semi-solid matrices for improved prediction of their impacts on treatment processes, and potential environmental toxicity following release.

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Nikolaos Voulvoulis

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