Journal
INTERNATIONAL JOURNAL OF HYDROGEN ENERGY
Volume 47, Issue 8, Pages 5577-5584Publisher
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.ijhydene.202111.186
Keywords
Mixed proton-hole conductor; BaZrO3; Proton conductivity; Electrical property; Proton incorporation
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A new mixed proton-hole conducting material is developed by doping cobalt into BaZr1-xScxO3-delta, which exhibits high hole conductivity. The study investigates the phases present, proton incorporation, and electrical conductivity of BaCoxZr0.9-xSc0.1O3-delta. It is found that Sc doping increases the cobalt solubility limit in BaZrO3 and conductive protons are incorporated in the bulk portion of Co, Sc-doped BaZrO3. BaCoxZr0.9Sc0.1O3-delta shows higher conductivity than Fe or Pr doped BaMxZr1-x-yYyO3-delta. The maximum conductivity is achieved for BaCo0.2Zr0.7Sc0.1O3-delta in both wet and dry oxidizing atmospheres.
A new mixed proton-hole conducting material is developed by doping the proton conductor, BaZr1-xScxO3-delta with cobalt, which is known for yielding high hole conductivity in oxides. The phases present, proton incorporation, and electrical conductivity of BaCoxZr0.9-xSc0.1O3-delta are investigated in this study. XRD analysis reveals that the doping of Sc, which has a larger ionic radius than Co and Zr, increases the cobalt solubility limit for BaZrO3 from 0.13 to 0.2. It is found that the conductive protons are incorporated in the bulk portion of Co, Sc-doped BaZrO3. The proton concentration of BaCoxZr0.9-xSc0.1O3-delta is shown to decrease as the Co content increases up to x = 0.1; however, at higher Co content (x = 0.15 and 0.2), the proton concentration increases again. In addition, it is found that the conductivity of BaCoxZr0.9Sc0.1O3-delta is higher than that of Fe or Pr doped BaMxZr1-x-yYyO3-delta for the same dopant concentration. The maximum conductivity of the single phase samples in both the wet oxidizing (P-H2O = 0.012 atm, P-O(2) = 0.21 atm) and dry oxidizing atmosphere (P-O2 = 0.21 atm) is 0.1 S cm(-1) for BaCo0.2Zr0.7Sc0.1O3-delta. (C) 2021 Hydrogen Energy Publications LLC. Published by Elsevier Ltd. All rights reserved.
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