High-resolution neutron imaging study of kinetics of H2O water vapor uptake from air into sessile heavy water droplets

Jae Kwan Im; Leekyo Jung; Jan Crha; Pavel Trtik; Joonwoo Jeong

High-resolution neutron imaging study of kinetics of H<sub>2</sub>O water vapor uptake from air into sessile heavy water droplets

ORAL

Abstract

At the surface of a liquid, the liquid molecules escape and enter the encompassing air as a gas, and the gas molecules join the liquid concurrently. Here we report the neutron imaging of a sessile heavy water (D₂O) droplet that absorbs light water (H₂O) vapor from the ambient air. A quantitative image analysis utilizing the Beer-Lambert law enables us to measure the attenuation coefficient of the specimen and estimate H₂O content within the droplet. We double-check this result with a quantitative Fourier-transform infrared spectroscopy and conclude that small D₂O droplets with a large surface-to-volume ratio can be very hygroscopic, e.g., the 15 percent of a D₂O droplet of 10 microliters can be replaced with H₂O in 10 minutes.

^*The neutron imaging was performed at the ICON beamline of SINQ at Paul Scherrer Institut, Switzerland, under the proposal-number 20180136. The authors acknowledge support from the 2018 Research Fund (1.180069.01) of UNIST (Ulsan National Institute of Science and Technology) and IBS-R020-D1 funded by the Korean Government.

March 4, 2020, 10:48 AM – March 4, 2020, 11:00 AM

Presenters

Jae Kwan Im
- Physics, Ulsan Natl Inst of Sci & Tech

Authors

Jae Kwan Im
- Physics, Ulsan Natl Inst of Sci & Tech
Leekyo Jung
- Physics, Ulsan Natl Inst of Sci & Tech
Jan Crha
- Laboratory for Neutron Scattering and Imaging, Paul Scherrer Institut
Pavel Trtik
- Laboratory for Neutron Scattering and Imaging, Paul Scherrer Institut
Joonwoo Jeong
- Physics, Ulsan Natl Inst of Sci & Tech
- Ulsan National Institute of Science and Technology