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Title Visualization of label-free titanium dioxide nanoparticle deposition on surfaces with nanoscale roughness
Date 03.04.2019
Number 56521
Abstract Understanding the transport of engineered nanoparticles (ENPs) and their interaction with environmental surfaces is critical to predicting their fate and environmental implications. Here, we report an innovative technique to visualize and quantify the deposition of titanium dioxide nanoparticles (TiO2NP) on engineered surfaces with nanoscale roughness, i.e., slanted columnar thin films (SCTFs). The attachment of TiO2NP on the surface of SCTFs changed the optical property of SCTFs, which was detected using a generalized ellipsometry (GE)-based instrument, an anisotropy contrast optical microscope (ACOM). An anisotropic effective medium model was applied to quantitatively analyze ACOM images of SCTF surfaces, which provided the mass distribution of TiO2NP. The TiO2NP mass measured by ACOM was in good agreement with the known amount of TiO2NP mass dispersed by controlled piezoelectric plotting. The detection of a few picograms of nanoparticle mass by an individual pixel measuring 7 × 7-micrometer squared was demonstrated. Further, a glass microfluidic channel with SCTF embedded was developed. The areal mass density of attached TiO2NP on SCTF surfaces as they flow through the channel under various flow rates was quantitatively measured in situ. At the end of the experiment, the distribution of the attached TiO2NP on the SCTF surface was visualized. The averaged mass density estimated by integrating the distribution map was in close agreement with the estimation from dynamic measurements and between repeating experiments. The capability of this novel technique to sense, quantify and visualize the mass distribution of TiO2NP provides a valuable approach to investigate the behavior of nanoparticles at the interface of flow and rough surfaces.
URL https://doi.org/10.1039/C8EN00984H
Publisher Environmental Science-Nano
Identifier
Citation Environmental Science-Nano 6 (2019) 248-260
DOI https://doi.org/10.1039/C8EN00984H
Authors Kananizadeh, N. ; Peev, D. ; Delon, T. ; Schubert, E. ; Bartelt-Hunt, S. ; Schubert, M. ; Zhang, J.M. ; Uhlmann, P. ; Lederer, A. ; Li, Y.
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