Simultaneous electrical impedance and optical absorption spectroscopy for rapid characterization of oxygen vacancies and small polarons in doped ceria

Author(s)

Kalaev, D.; Tuller, H. L.

Abstract

Mixed ionic–electronic conductors (MIECs) play a central role in emerging energy conversion and energy efficient computational technologies. However, it is both challenging and resource demanding to characterize MIECs over the broad range of experimental conditions of interest, thereby significantly limiting their study and applications. Here, a novel method of a simultaneous measurement of electrical conductivity and optical absorption of thin films in out-of-equilibrium state, i.e. during a reduction process, is employed for a comprehensive study of a MIEC oxide, PrxCe1xO2d (PCO). It enables, orders of magnitude faster than by established techniques, characterization of the oxygen vacancy and small polaron formation and transport as a function of temperature (demonstrated here down to 200 1C), in a wide range of deviation from stoichiometry, d. For instance, at 600 1C the PCO properties were obtained during a ten minute reduction process, in the pO2 range from 1 to 1013 bar. The experimental results show that the oxygen vacancy mobility is constant while the small polaron mobility is linear in d, in the whole pO2 range, which yields the total conductivity quadratic in d. Furthermore, the method was applied to study the modification of PCO’s transport properties with composition change. It was shown that increasing x from 0.1 to 0.2 suppresses the ionic mobility and, at the same time, enhances the small polaron mobility. Finally, the optically determined d was used to define an instantaneous oxygen activity in PCO that can be accessed in the out-of-equilibrium experiments. This work opens up new possibilities to study the effects of microstructure, strain and other applied external stimuli on the transport and thermodynamic properties of PCO and similar types of MIEC materials.

Date issued

2023

URI

https://hdl.handle.net/1721.1/148453

Department

Massachusetts Institute of Technology. Department of Materials Science and Engineering

Publisher

Royal Society of Chemistry (RSC)

Citation

Kalaev, D. and Tuller, H. L. 2023. "Simultaneous electrical impedance and optical absorption spectroscopy for rapid characterization of oxygen vacancies and small polarons in doped ceria." 25 (7).

Version: Final published version

ISSN

1463-9076

1463-9084

Keywords

Physical and Theoretical Chemistry, General Physics and Astronomy