Alternative assessment of nano-TiO sub(2) sedimentation under different conditions based on sedimentation efficiency at quasi-stable state
The predictable significant increase in manufacture and use of engineered nanoparticles (ENPs) will cause their inevitable release into environment, and the potential harmful effects of ENPs have been confirmed. As representative ENPs, sedimentation behavior of nano-titanium dioxide (n-TiO sub(2)) s...
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| Veröffentlicht in: | Journal of nanoparticle research : an interdisciplinary forum for nanoscale science and technology 2015-11, Vol.17 (11), p.1-11 |
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| container_title | Journal of nanoparticle research : an interdisciplinary forum for nanoscale science and technology |
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| creator | He, Guang'an Chen, Rui Lu, Shushen Jiang, Chengchun Liu, Hong Wang, Chuan |
| description | The predictable significant increase in manufacture and use of engineered nanoparticles (ENPs) will cause their inevitable release into environment, and the potential harmful effects of ENPs have been confirmed. As representative ENPs, sedimentation behavior of nano-titanium dioxide (n-TiO sub(2)) should be better understood to control its environmental risk. In this study, an experimental methodology was established to set the sampling area and sampling time of n-TiO sub(2) sedimentation. In addition, we defined a quasi-stable state and a precise index, i.e., sedimentation efficiency (SE) at this state, to describe the n-TiO sub(2) sedimentation behavior. Both alternative concentration determination and conventional size measurement were applied to evaluate the sedimentation behavior of n-TiO sub(2) with fulvic acid. Results showed that the sedimentation behavior described by SE was more precise and in disagreement with those predicted by particle size. Moreover, sedimentation experiments with salicylic acid (SA), under an electric field and different water temperatures or with sulfosalicylic acid under light irradiation were also performed. When the total organic carbon concentration of SA, the voltage of working electrodes, and water temperature increased, or the wavelength of light source decreased, the SE of n-TiO sub(2) increased and n-TiO sub(2) showed a tendency to settle in water. These findings might be important for deepening the understanding of n-TiO sub(2) environmental behavior and exploring sedimentation behavior of other ENPs. |
| doi_str_mv | 10.1007/s11051-015-3250-8 |
| format | Article |
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As representative ENPs, sedimentation behavior of nano-titanium dioxide (n-TiO sub(2)) should be better understood to control its environmental risk. In this study, an experimental methodology was established to set the sampling area and sampling time of n-TiO sub(2) sedimentation. In addition, we defined a quasi-stable state and a precise index, i.e., sedimentation efficiency (SE) at this state, to describe the n-TiO sub(2) sedimentation behavior. Both alternative concentration determination and conventional size measurement were applied to evaluate the sedimentation behavior of n-TiO sub(2) with fulvic acid. Results showed that the sedimentation behavior described by SE was more precise and in disagreement with those predicted by particle size. Moreover, sedimentation experiments with salicylic acid (SA), under an electric field and different water temperatures or with sulfosalicylic acid under light irradiation were also performed. When the total organic carbon concentration of SA, the voltage of working electrodes, and water temperature increased, or the wavelength of light source decreased, the SE of n-TiO sub(2) increased and n-TiO sub(2) showed a tendency to settle in water. 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When the total organic carbon concentration of SA, the voltage of working electrodes, and water temperature increased, or the wavelength of light source decreased, the SE of n-TiO sub(2) increased and n-TiO sub(2) showed a tendency to settle in water. 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| subjects | Assessments Carbon Electric fields Nanostructure Risk management Sampling Sedimentation Water temperature |
| title | Alternative assessment of nano-TiO sub(2) sedimentation under different conditions based on sedimentation efficiency at quasi-stable state |
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