Oxygen surface exchange kinetics and electronic conductivity of the third-order Ruddlesden-Popper phase Pr4Ni2.7Co0.3O10-δ
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In: Solid State Ionics, Vol. 348.2020, No. May, 115282, 08.03.2020.
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T1 - Oxygen surface exchange kinetics and electronic conductivity of the third-order Ruddlesden-Popper phase Pr4Ni2.7Co0.3O10-δ
AU - Berger, Christian
AU - Bucher, Edith
AU - Egger, Andreas
AU - Schrödl, Nina
AU - Lammer, Judith
AU - Gspan, Christian
AU - Merkle, Rotraut
AU - Grogger, Werner
AU - Maier, Joachim
AU - Sitte, Werner
N1 - Publisher Copyright: © 2020 Elsevier B.V.
PY - 2020/3/8
Y1 - 2020/3/8
N2 - The third-order Ruddlesden-Popper phase Pr 4Ni 2.7Co 0.3O 10-δ (PNCO43) was synthesized by a freeze drying process. Phase purity and crystal structure were determined by X-ray diffraction and Rietveld analysis. The electronic conductivity of a bulk sample obtained by a two-step sintering process was measured by the four-point dc van der Pauw method as a function of temperature (50 ≤ T/°C ≤ 800) and oxygen partial pressure (1 × 10 − 3 ≤ pO 2/bar ≤1). Dense thin-film PNCO43 microelectrodes were prepared by pulsed laser deposition and photolithography on yttria-stabilised zirconia substrates. The thin-films were characterized by X-ray diffraction, scanning electron microscopy, scanning transmission electron microscopy, and inductively coupled plasma optical emission spectroscopy. Individual resistive and capacitive processes were investigated with electrochemical impedance spectroscopy as a function of the oxygen partial pressure (1 × 10 − 3 ≤ pO 2/bar ≤1) and temperature (600 ≤ T/°C ≤ 850). Oxygen surface exchange coefficients k q, calculated from the resistance of the electrode, show relatively high values (e.g. k q = 1.5 × 10 − 6 cm s −1 at 800 °C and 2 × 10 − 1 bar pO 2). Chemical surface exchange coefficients k chem of oxygen were obtained from the peak frequency or the chemical capacitance as determined by impedance spectroscopy.
AB - The third-order Ruddlesden-Popper phase Pr 4Ni 2.7Co 0.3O 10-δ (PNCO43) was synthesized by a freeze drying process. Phase purity and crystal structure were determined by X-ray diffraction and Rietveld analysis. The electronic conductivity of a bulk sample obtained by a two-step sintering process was measured by the four-point dc van der Pauw method as a function of temperature (50 ≤ T/°C ≤ 800) and oxygen partial pressure (1 × 10 − 3 ≤ pO 2/bar ≤1). Dense thin-film PNCO43 microelectrodes were prepared by pulsed laser deposition and photolithography on yttria-stabilised zirconia substrates. The thin-films were characterized by X-ray diffraction, scanning electron microscopy, scanning transmission electron microscopy, and inductively coupled plasma optical emission spectroscopy. Individual resistive and capacitive processes were investigated with electrochemical impedance spectroscopy as a function of the oxygen partial pressure (1 × 10 − 3 ≤ pO 2/bar ≤1) and temperature (600 ≤ T/°C ≤ 850). Oxygen surface exchange coefficients k q, calculated from the resistance of the electrode, show relatively high values (e.g. k q = 1.5 × 10 − 6 cm s −1 at 800 °C and 2 × 10 − 1 bar pO 2). Chemical surface exchange coefficients k chem of oxygen were obtained from the peak frequency or the chemical capacitance as determined by impedance spectroscopy.
UR - http://www.scopus.com/inward/record.url?scp=85081032425&partnerID=8YFLogxK
U2 - https://doi.org/10.1016/j.ssi.2020.115282
DO - https://doi.org/10.1016/j.ssi.2020.115282
M3 - Article
VL - 348.2020
JO - Solid State Ionics
JF - Solid State Ionics
SN - 0167-2738
IS - May
M1 - 115282
ER -