Developing high performance and stable hetero-structured cathodes and fundamental understanding of oxygen reduction and reaction behavior

Abstract: Developing High Performance and Stable Hetero-structured Cathodes and Fundamental Understanding of Oxygen Reduction and Reaction Behavior ByXinxin Zhang New hetero-structured La2NiO4+δ (LNO)/ (La0.6Sr0.4)0.95Co0.2Fe0.8O3-δ (LSCF) SOFC cathodes have been successfully fabricated by the infiltration technique for long-term stability and oxygen reduction reaction (ORR) kinetic consideration. The current comparative study of LSCF and LNO-infiltrated LSCF shows a significant reduction in polarization resistance by o… Show more

“…The results of calculations done assuming phase-pure La 2– x NiO 4+δ compositions for the entire series (Figure A) showed that the total oxygen content 4+δ decreases nearly linear with the nominal x . If the materials were indeed single-phase, this would indicate that the increase in the concentration of cation vacancies in the lanthanum sublattice is mainly compensated by a change in the concentration of oxygen defects  a decrease in the concentration of interstitial oxygen, followed by a transition to oxygen deficiency and an increase in the concentration of oxygen vacancies for x = 0.10, in accordance with eq and conclusions in selected literature sources. ,, …”

“…The noted trends in the relevant properties with increasing nominal A-site deficiency included a minor increase in electrical conductivity (shown only for selected compositions), a gradual decrease in the roomtemperature oxygen content with a transition to oxygen deficiency, and a progressive increase in the polarization resistance of La 2−x NiO 4+δ electrodes. 27,28 Similar inconsistencies can be found in available literature reports on A-site-deficient nickelates derived from Nd 2 NiO 4+δ 29−37 and Pr 2 NiO 4+δ . 38−47 The following communications are worth highlighting, among others, in the context of the present work.…”

“…If the materials were indeed single-phase, this would indicate that the increase in the concentration of cation vacancies in the lanthanum sublattice is mainly compensated by a change in the concentration of oxygen defects � a decrease in the concentration of interstitial oxygen, followed by a transition to oxygen deficiency and an increase in the concentration of oxygen vacancies for x = 0.10, in accordance with eq 1 and conclusions in selected literature sources. 21,22,28 However, the prepared La 2−x NiO 4+δ ceramic materials are not phase-pure, as confirmed by the XRD/ND and SEM/EDS results. Therefore, the oxygen content from the TGA data was recalculated assuming that the concentration of lanthanum vacancies is negligible and that excess nickel is precipitated as NiO.…”

“…25 Very similar results were obtained by Ferkhi 26 and Zhang. 27,28 Ferkhi et al 26 synthesized La 2−x NiO 4+δ (x = 0.01−0.05) powders by the modified Pechini (citrate) method with final thermal treatment at 1000 °C. The prepared powders were claimed to be of single phase, but available XRD patterns clearly showed the presence of a secondary phase (presumably La 3 Ni 2 O 7 ) at least for x = 0.03−0.05.…”

“…26 The values of polarization resistance of prepared La 2−x NiO 4+δ electrodes varied unsystematically with x and were substantially higher compared to those reported in the literature for La 2 NiO 4+δ . 26 Zhang et al 27,28 prepared La 2−x NiO 4+δ (x = 0−0.20) by the sol−gel citrate technique with final calcination at 1100 °C. Once again, the synthesized powders with x < 0.20 were discussed as phase-pure, although the presented XRD patterns of the x = 0.05−0.15 samples distinctly showed the reflections of a secondary phase (seemingly La 3 Ni 2 O 7 ).…”

Intolerance of the Ruddlesden–Popper La₂NiO_4+δ Structure to A-Site Cation Deficiency

“…The results of calculations done assuming phase-pure La 2– x NiO 4+δ compositions for the entire series (Figure A) showed that the total oxygen content 4+δ decreases nearly linear with the nominal x . If the materials were indeed single-phase, this would indicate that the increase in the concentration of cation vacancies in the lanthanum sublattice is mainly compensated by a change in the concentration of oxygen defects  a decrease in the concentration of interstitial oxygen, followed by a transition to oxygen deficiency and an increase in the concentration of oxygen vacancies for x = 0.10, in accordance with eq and conclusions in selected literature sources. ,, …”

“…The noted trends in the relevant properties with increasing nominal A-site deficiency included a minor increase in electrical conductivity (shown only for selected compositions), a gradual decrease in the roomtemperature oxygen content with a transition to oxygen deficiency, and a progressive increase in the polarization resistance of La 2−x NiO 4+δ electrodes. 27,28 Similar inconsistencies can be found in available literature reports on A-site-deficient nickelates derived from Nd 2 NiO 4+δ 29−37 and Pr 2 NiO 4+δ . 38−47 The following communications are worth highlighting, among others, in the context of the present work.…”

“…If the materials were indeed single-phase, this would indicate that the increase in the concentration of cation vacancies in the lanthanum sublattice is mainly compensated by a change in the concentration of oxygen defects � a decrease in the concentration of interstitial oxygen, followed by a transition to oxygen deficiency and an increase in the concentration of oxygen vacancies for x = 0.10, in accordance with eq 1 and conclusions in selected literature sources. 21,22,28 However, the prepared La 2−x NiO 4+δ ceramic materials are not phase-pure, as confirmed by the XRD/ND and SEM/EDS results. Therefore, the oxygen content from the TGA data was recalculated assuming that the concentration of lanthanum vacancies is negligible and that excess nickel is precipitated as NiO.…”

“…25 Very similar results were obtained by Ferkhi 26 and Zhang. 27,28 Ferkhi et al 26 synthesized La 2−x NiO 4+δ (x = 0.01−0.05) powders by the modified Pechini (citrate) method with final thermal treatment at 1000 °C. The prepared powders were claimed to be of single phase, but available XRD patterns clearly showed the presence of a secondary phase (presumably La 3 Ni 2 O 7 ) at least for x = 0.03−0.05.…”

“…26 The values of polarization resistance of prepared La 2−x NiO 4+δ electrodes varied unsystematically with x and were substantially higher compared to those reported in the literature for La 2 NiO 4+δ . 26 Zhang et al 27,28 prepared La 2−x NiO 4+δ (x = 0−0.20) by the sol−gel citrate technique with final calcination at 1100 °C. Once again, the synthesized powders with x < 0.20 were discussed as phase-pure, although the presented XRD patterns of the x = 0.05−0.15 samples distinctly showed the reflections of a secondary phase (seemingly La 3 Ni 2 O 7 ).…”

Intolerance of the Ruddlesden–Popper La₂NiO_4+δ Structure to A-Site Cation Deficiency