期刊
ANALYTICAL SCIENCES
卷 38, 期 2, 页码 281-287出版社
SPRINGERNATURE
DOI: 10.2116/analsci.21P198
关键词
Nanofluidics; Nanochannel; Flow rate; Water; Pressure-driven flow
资金
- Japan Society for the Promotion of Science (JSPS) [JP21000007]
With the development of analytical devices in nanofluidics, estimation of flow rate in nanochannels is crucial for calculating volumes in chemical processing. A mass flowmetry system was developed in this study to measure the flow rate of water in a fused-silica nanochannel. The study revealed that the flow rate is significantly affected by viscosity in a square nanochannel and slightly affected in a plate nanochannel, due to dominant surface effects.
With developments in analytical devices promoted by nanofluidics, estimation of the flow rate in a nanochannel has become important to calculate volumes of samples and reagents in chemical processing. However, measurement of the flow rate in nanospaces remains challenging. In the present study, a mass flowmetry system was developed, and the flow rate of water by pressure-driven flow in a fused-silica nanochannel was successfully measured in picoliters per second. We revealed that the water flow rate is dependent on the viscosity significantly increased in a square nanochannel with 10(2) nm width and depth (3.6 times higher than the bulk viscosity for a representative channel size of 190 nm) and slightly increased in a plate nanochannel with micrometer-scale width and 10(2) nm depth (1.3 times higher for that of 234 nm), because of dominant surface effects. The developed method and results obtained will greatly contribute to nanofluidics and other related fields.
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