@misc{10481/73337,
year = {2014},
url = {http://hdl.handle.net/10481/73337},
abstract = {In this work, an Android application for measurement of nitrite concentration and pH determination in
combination with a low-cost paper-based microfluidic device is presented. The application uses seven sensing areas, containing the corresponding immobilized reagents, to produce selective color changes when a sample solution is placed in the sampling area. Under controlled conditions of light, using the flash of the smartphone as a light source, the image captured with the built-in camera is processed using a customized algorithm for multidetection of the colored sensing areas. The developed imageprocessing allows reducing the influence of the light source and the positioning of the microfluidic device in the picture. Then, the H (hue) and S (saturation) coordinates of the HSV color space are extracted and related to pH and nitrite concentration, respectively. A complete characterization of the sensing elements has been carried out as well as a full description of the image analysis for detection. The results show good use of a mobile phone as an analytical instrument. For the pH, the resolution obtained is 0.04 units of pH, 0.09 of accuracy, and a mean squared error of 0.167. With regard to nitrite, 0.51% at 4.0 mg L−1 of resolution and 0.52 mg L−1 as the limit of detection was achieved.},
publisher = {Royal Society of Chemistry},
title = {Smartphone-based simultaneous pH and nitrite colorimetric determination for paper microfluidic devices},
doi = {dx.doi.org/10.1021/ac5019205},
author = {López Ruiz, Nuria and Curto, Vincenzo and Erenas Rodríguez, Miguel María and Benito Lopez, Fernando and Diamond, Dermot and Capitán Vallvey, Luis Fermín},
}