Effects of Air and Other Gases in the Stabilization Process of the Superprotonic Phase of Cesium Dihydrogen Phosphate Within a Hermetically Sealed Chamber
Abstract
The solid acid CsH2PO4 (CDP), exhibits a sudden increase in its proton conductivity as it’s heated above a certain temperature (around T∼235°C), which makes it a very attractive candidate to be used as an electrolyte in intermediate temperature fuel cells. Unfortunately, at these temperatures the sample is not stable, as starts to dehydrate; which causes a dramatic drop in the proton conductivity over a short period of time (less than one hour). In order to inhibit, or at least delay, the dehydration process, the solid acid it’s put under a saturated water vapor atmosphere. Another method to stabilize the highly conductive phase is to subject the solid acid to a pressure of ∼1GPa. However, none of these methods are practical approaches for making full scale and operational fuel cells. The main purpose of this research is to find an alternative to stabilize the proton conductivity of CDP at intermediate temperatures, by using hermetically sealed chambers filled with different gases above temperatures of the heated induced high proton conductivity. Also, we mixed CDP with nano-silica (1-x)CsH 2PO4 / xSiO2 (0≤x≤0.3) for the same purpose. In this study, we used the following characterization techniques: temperature- and time-resolved electrochemical impedance spectroscopy (EIS), x-ray powder diffraction, and thermal analysis methods to analyze the composite (1-x)CsH 2PO4 / xSiO2 (0≤x≤0.3). EIS data was collected at different temperatures (200°C-260°C) using both, a dry and humid (PH2O ∼ 0.38 atm) atmospheres. EIS was also obtained by using a different volume hermetically sealed chambers filled with Argon, Helium, air, Nitrogen , dry air (with no humidity) and under vacuum.
Subject Area
Materials science
Recommended Citation
Martinez, Israel Martinez, "Effects of Air and Other Gases in the Stabilization Process of the Superprotonic Phase of Cesium Dihydrogen Phosphate Within a Hermetically Sealed Chamber" (2018). ETD Collection for University of Texas, El Paso. AAI10931075.
https://scholarworks.utep.edu/dissertations/AAI10931075