Microfluidic devices are a growing field with significant potential for application to small scale processing of solutions. Much like large scale processing, fast, reliable, and cost effective means of monitoring the streams during processing are needed. Here we apply a novel Micro-Raman probe to the on-line monitoring of streams within a microfluidic device. For either macro or micro scale process monitoring via spectroscopic response, there is the danger of interfering or confounded bands obfuscating results. By utilizing chemometric analysis, a form of multivariate analysis, species can be accurately quantified in solution despite the presence of overlapping or confounded spectroscopic bands. This is demonstrated on solutions of HNO3 and NaNO3 within micro-flow and microfluidic devices.
Revised: May 23, 2018 |
Published: January 30, 2018
Citation
Lines A.M., G.L. Nelson, A.J. Casella, J.M. Bello, S.B. Clark, and S.A. Bryan. 2018.Multivariate Analysis To Quantify Species in the Presence of Direct Interferents: Micro-Raman Analysis of HNO3 in Microfluidic Devices.Analytical Chemistry 90, no. 4:2548-2554.PNNL-SA-126639.doi:10.1021/acs.analchem.7b03833