Dissolution magnitude and kinetics of ZnO nanoparticles mediated by water are dependent on O vacancy abundance: the environmental implications
Metal oxide nanoparticles (NPs) dissolution in water environment is an important issue with regard to their environmental behaviors. The metal ion dissolves from surface defective site, but the effect of defect abundance remains largely unknown. This study aims to reveal this effect using ZnO NPs an...
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sg-ntu-dr.10356-1597102022-06-29T06:30:36Z Dissolution magnitude and kinetics of ZnO nanoparticles mediated by water are dependent on O vacancy abundance: the environmental implications He, Hongping Cao, Jianglin Fei, Xunchang Duan, Ning School of Civil and Environmental Engineering Nanyang Environment and Water Research Institute Residues and Resource Reclamation Centre Engineering::Environmental engineering Metal Oxide Nanoparticles Dissolution Behavior Metal oxide nanoparticles (NPs) dissolution in water environment is an important issue with regard to their environmental behaviors. The metal ion dissolves from surface defective site, but the effect of defect abundance remains largely unknown. This study aims to reveal this effect using ZnO NPs and O vacancy as the model system. The abundance of O vacancy is modulated by using different precursors and changing calcination atmosphere and temperature. X-ray photoelectron spectroscopy characterization shows that surface O vacancy abundance is effectively modulated to be distributed in a wide range from 15.3% to 41.8%. The deviation of O/Zn mole-ratio from 1.00 is used to denote O vacancy abundance in the bulk crystal, and the deviation reaches up to 0.32. Experiments show that the kinetics and magnitude of ZnO NPs dissolution vary in H2O, which are highly dependent on O vacancy abundance. In comparison, the specific surface area and aggregation state take minor roles. Particularly, Zn2+ dissolution rate in the first hour is more linearly correlated with surface O vacancy abundance than with specific surface area. Defects and their abundances should thus be co-considered with other physicochemical properties to fully understand the dissolution behaviors of metal oxide NPs in water environment. This study is of significance in comprehensively assessing and predicting the environmental risk of metal oxide NPs. This work was supported by the National Key R&D Program of China (2017YFC0210402), National Major Science and Technology Program for Water Pollution Control and Treatment (2017ZX07402004), and State Key Laboratory of Pollution Control and Resource Reuse Foundation (PCRRF20013). 2022-06-29T06:30:35Z 2022-06-29T06:30:35Z 2021 Journal Article He, H., Cao, J., Fei, X. & Duan, N. (2021). Dissolution magnitude and kinetics of ZnO nanoparticles mediated by water are dependent on O vacancy abundance: the environmental implications. The Science of the Total Environment, 787, 147545-. https://dx.doi.org/10.1016/j.scitotenv.2021.147545 0048-9697 https://hdl.handle.net/10356/159710 10.1016/j.scitotenv.2021.147545 34004534 2-s2.0-85106321044 787 147545 en The Science of the total environment © 2021 Elsevier B.V. All rights reserved. |
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Engineering::Environmental engineering Metal Oxide Nanoparticles Dissolution Behavior He, Hongping Cao, Jianglin Fei, Xunchang Duan, Ning Dissolution magnitude and kinetics of ZnO nanoparticles mediated by water are dependent on O vacancy abundance: the environmental implications |
| description |
Metal oxide nanoparticles (NPs) dissolution in water environment is an important issue with regard to their environmental behaviors. The metal ion dissolves from surface defective site, but the effect of defect abundance remains largely unknown. This study aims to reveal this effect using ZnO NPs and O vacancy as the model system. The abundance of O vacancy is modulated by using different precursors and changing calcination atmosphere and temperature. X-ray photoelectron spectroscopy characterization shows that surface O vacancy abundance is effectively modulated to be distributed in a wide range from 15.3% to 41.8%. The deviation of O/Zn mole-ratio from 1.00 is used to denote O vacancy abundance in the bulk crystal, and the deviation reaches up to 0.32. Experiments show that the kinetics and magnitude of ZnO NPs dissolution vary in H2O, which are highly dependent on O vacancy abundance. In comparison, the specific surface area and aggregation state take minor roles. Particularly, Zn2+ dissolution rate in the first hour is more linearly correlated with surface O vacancy abundance than with specific surface area. Defects and their abundances should thus be co-considered with other physicochemical properties to fully understand the dissolution behaviors of metal oxide NPs in water environment. This study is of significance in comprehensively assessing and predicting the environmental risk of metal oxide NPs. |
| author2 |
School of Civil and Environmental Engineering |
| author_facet |
School of Civil and Environmental Engineering He, Hongping Cao, Jianglin Fei, Xunchang Duan, Ning |
| format |
Article |
| author |
He, Hongping Cao, Jianglin Fei, Xunchang Duan, Ning |
| author_sort |
He, Hongping |
| title |
Dissolution magnitude and kinetics of ZnO nanoparticles mediated by water are dependent on O vacancy abundance: the environmental implications |
| title_short |
Dissolution magnitude and kinetics of ZnO nanoparticles mediated by water are dependent on O vacancy abundance: the environmental implications |
| title_full |
Dissolution magnitude and kinetics of ZnO nanoparticles mediated by water are dependent on O vacancy abundance: the environmental implications |
| title_fullStr |
Dissolution magnitude and kinetics of ZnO nanoparticles mediated by water are dependent on O vacancy abundance: the environmental implications |
| title_full_unstemmed |
Dissolution magnitude and kinetics of ZnO nanoparticles mediated by water are dependent on O vacancy abundance: the environmental implications |
| title_sort |
dissolution magnitude and kinetics of zno nanoparticles mediated by water are dependent on o vacancy abundance: the environmental implications |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/159710 |
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1738844862179966976 |