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http://dx.doi.org/10.5572/ajae.2011.5.1.056

Preliminary Study on the Visualization and Quantification of Elemental Compositions in Individual Microdroplets using Solidification and Synchrotron Radiation Techniques  

Ma, Chang-Jin (Department of Environmental Science, Fukuoka Women's University)
Tohno, Susumu (Graduate School of Energy Science, Kyoto University)
Kasahara, Mikio (Institute of Science and Technology Research, Chubu University)
Publication Information
Asian Journal of Atmospheric Environment / v.5, no.1, 2011 , pp. 56-63 More about this Journal
Abstract
Quantifying the solute composition of a cloud droplet (or a whole droplet) is an important task for understanding formation processes and heating/cooling rates. In this study, a combination of droplet fixation and SR-XRF microprobe analysis was used to visualize and quantify elements in a micro-scale droplet. In this study, we report the preliminary outcome of this experiment. A spherical micro-scale droplet was successfully solidified through exposure to ${\alpha}$-cyano-acrylate vapor without affecting its size or shape. An X-ray microprobe system equipped at the beam line 37XU of Super Photon ring 8 GeV (SPring-8) was applied to visualize and quantify the elemental composition in an individual micro-scale droplet. It was possible to reconstruct 2D elemental maps for the K and Cl contained in a microdroplet that was dispensed from the 10-ppm KCl standard solution. Multi-elemental peaks corresponding to X-ray energy were also successfully resolved. Further experiments to determine quantitative measures of elemental mass in individual droplets and high-resolution X-ray microtomography (i.e., 3D elemental distribution) are planned for the future.
Keywords
Cloud; Individual droplet; Quantification; Elements; Fixation; XRF microprobe;
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