Abstract
The research aims were to construct an air-breathing paper-based microfluidic fuel cell (paper-based μ FC) and to evaluated it with different soft drinks to provide energy for their prospective use in portable devices as an emergency power source. First, in a half-cell configuration, cyclic voltammetry showed that glucose, maltose, and fructose had specific oxidation zones in the presence of platinum-ruthenium on carbon (PtRu/C) when they were individual. Still, when they were mixed, glucose was observed to be oxidized to a greater extent than fructose and maltose. After, when a paper-based μ FC was constructed, PtRu/C and platinum on carbon (Pt/C) were used as anode and cathode, the performance of this μ FC was mostly influenced by the concentration of glucose present in each soft drink, obtaining maximum power densities at room temperature of 0.061, 0.063, 0.060, and 0.073 mW cm − 2 for Coca Cola ® , Pepsi ® , Dr. Pepper ® , and 7up ® , respectively. Interestingly, when the soft drinks were cooled, the performance was increased up to 85%. Furthermore, a four-cell stack μ FC was constructed to demonstrate its usefulness as a possible power supply, obtaining a power density of 0.4 mW cm − 2 , using Coca Cola ® as fuel and air as oxidant. Together, the results of the present study indicate an alternative application of an μ FC using soft drinks as a backup source of energy in emergencies.
Highlights
A Paper-Based Microfluidic Fuel Cell Using SoftJaime Hernández Rivera 1,2 , David Ortega Díaz 3 , Diana María Amaya Cruz 4 , Juvenal Rodríguez-Reséndiz 5, * , Juan Manuel Olivares Ramírez 2, * , Andrés Dector 6, * , Diana Dector 1 , Rosario Galindo 7 and Hilda Esperanza Esparza Ponce 1
The performance of low-consumption electronic devices such as wireless sensors, digital clocks, and small medical devices, among others, is limited, due to the use a rechargeable lithium-ion battery [1]
The cyclic voltammograms (CVs) corresponding to the saccharides founded in all soft drinks used in this study (7up R, Coca Cola R, Dr Pepper R, and Pepsi R ) showed similar behavior in all cases
Summary
Jaime Hernández Rivera 1,2 , David Ortega Díaz 3 , Diana María Amaya Cruz 4 , Juvenal Rodríguez-Reséndiz 5, * , Juan Manuel Olivares Ramírez 2, * , Andrés Dector 6, * , Diana Dector 1 , Rosario Galindo 7 and Hilda Esperanza Esparza Ponce 1. Renewable Energy Department, Universidad Tecnológica de San Juan del Río, Querétaro 76800, Mexico. Facultad de Ingeniería, Universidad Autónoma de Querétaro, Querétaro 76010, Mexico. Renewable Energy Department, CONACYT–Universidad Tecnológica de San Juan del Río, Querétaro 76800, Mexico
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