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Dissolution and Retention Process of CeO2 Nanoparticles in Soil with Dynamic Redox Conditions.

Chunlei JiaoChaonan DongChangjian XieWenhe LuoJunzhe ZhangShixian FanYabo LiuYuhui MaXiao HeZhiyong Zhang
Published in: Environmental science & technology (2021)
The time-course association of soil physicochemical properties and fate of CeO2 nanoparticles (NPs) is not well understood. This study for the first time investigated the dissolution and retention of CeO2 NPs (<25 nm) during soil short-term (6 h) and long-term (30 d) aging processes with dynamic redox conditions. Under the additional reductant-induced initial reductive condition, theoretically, up to 220‰ of Ce(IV) was temporarily reductively dissolved within 10 min, accompanied by a slow retention process (180 min) of Ce species in soil solutions. Conversely, the dissolution and slow retention of Ce species were not significant in soil solutions without added reductant. X-ray absorption near edge spectroscopy (XANES) shows that most of Ce species were present as Ce(IV) (94.0%-97.8%) in all soils after a long-term aging process. These results indicate that the soil dynamic redox conditions induced by oxidant/reductant intrinsically determined the different time-course dissolution and retention of CeO2 NPs, highlighting the occasional reductive condition in soil solution that may contribute to the migration and diffusion of Ce species. The time-course study should be also adopted to develop a comprehensive understanding of the nano-soil interactions.
Keyphrases
  • plant growth
  • high resolution
  • energy transfer
  • oxidative stress
  • magnetic resonance
  • heavy metals
  • high glucose
  • anti inflammatory
  • drug induced