Atomically layer-by-layer diffusion of oxygen/hydrogen in highly epitaxial PrBaCo2O5.5+δ thin films

Atomically layer-by-layer diffusion of oxygen/hydrogen in highly epitaxial PrBaCo2O5.5+δ thin films

Single-crystalline epitaxial thin films of PrBaCo2O5.5+δ (PrBCO) were prepared, and their resistance R(t) under a switching flow of oxidizing and reducing gases were measured as a function of the gas flow time t in the temperature range of 200–800 °C. During the oxidation cycle under O2, the PrBCO f...

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Veröffentlicht in:Applied physics letters 2015-12, Vol.107 (24)
Hauptverfasser: Bao, Shanyong, Xu, Xing, Enriquez, Erik, Mace, Brennan E., Chen, Garry, Kelliher, Sean P., Chen, Chonglin, Zhang, Yamei, Whangbo, Myung-Hwan, Dong, Chuang, Zhang, Qinyu
Format: Artikel
Sprache:eng
Schlagworte:
Applied physics
Barium oxides
Chemical sensors
Cobalt
CONDENSED MATTER PHYSICS, SUPERCONDUCTIVITY AND SUPERFLUIDITY
Diffusion layers
Direct reduction
Electrode materials
Gas flow
Operating temperature
Organic chemistry
Oxidation
Oxygen
Single crystals
Thin films
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Zusammenfassung:Single-crystalline epitaxial thin films of PrBaCo2O5.5+δ (PrBCO) were prepared, and their resistance R(t) under a switching flow of oxidizing and reducing gases were measured as a function of the gas flow time t in the temperature range of 200–800 °C. During the oxidation cycle under O2, the PrBCO films exhibit fast oscillations in their dR(t)/dt vs. t plots, which reflect the oxidation processes, Co2+/Co3+ → Co3+ and Co3+ → Co3+/Co4+, that the Co atoms of PrBCO undergo. Each oscillation consists of two peaks, with larger and smaller peaks representing the oxygen/hydrogen diffusion through the (BaO)(CoO2)(PrO)(CoO2) layers of PrBCO via the oxygen-vacancy-exchange mechanism. This finding paves a significant avenue for cathode materials operating in low-temperature solid-oxide-fuel-cell devices and for chemical sensors with wide range of operating temperature.
ISSN:0003-6951
1077-3118
DOI:10.1063/1.4937926