Model-based optimization of parameters for degradation reaction of an organophosphorus pesticide, Paraoxon, using CeO2 nanoparticles in water media

Publication date: Available online 1 May 2017 Source:Environmental Toxicology and Pharmacology Author(s): Alicia Salerno, Isabelle Pitault, Thierry Devers, Jocelyne Pelletier, Stéphanie Briançon Degradation and body surface decontamination is vital to prevent the skin penetration of paraoxon (POX), an organophosphorus pesticide, and victims poisoning. CeO2 demonstrated a good efficacy for the degradation of POX. The aim of the study was to develop a model which includes the impact of weight of CeO2, POX and diluent volumes on the degradation kinetics. The modelling was realized with rapid and simple experiments carried out in tubes, in aqueous diluent which contained ions in order to be in accordance with in vitro skin decontamination conditions. CeO2 had degraded from 5% (in case of 7.5 mmole of POX per gram of CeO2) to 100% (0.002 mmole of POX per gram of CeO2) of POX. Different kinetic models were tested. Using the particle aggregation kinetic model, the simulated and experimental data were in a good accordance. It highlighted the importance of particles aggregation due to salts and consistency of the mix on the degradation efficiency of CeO2. The model worked also really well to predict the degradation efficiency of CeO2 powders during in vitro skin experiments. However, it did not correctly forecast with an aqueous decontaminant, containing CeO2.
Source: Environmental Toxicology and Pharmacology - Category: Environmental Health Source Type: research