Oxygen Reduction Reaction Kinetics in Sr-Doped La<sub>2</sub>NiO<sub>4+δ</sub>Ruddlesden-Popper Phase as Cathode for Solid Oxide Fuel Cells

Guan, Bo; Li, Wenyuan; Zhang, Hui; Liu, Xingbo

doi:10.1149/2.0541507jes

Cited by 47 publications

(44 citation statements)

References 54 publications

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“…Figure 3 shows the ECR for Sr20 and Sr40 obtained with 0.20 atm P O2 at 700 o C. Sr doping impairs the surface exchange kinetics substantially. k for Sr20 and Sr40 is 3.1×10 -6 and 1.8×10 -6 cm/s, which is in good agreement with the degradation in the electrochemical performance of lanthanum nickelate cathodes as Sr doping we reported previously (17). In order to study the possible rate-limiting step(s) in the surface oxygen exchange process and Sr effect on those steps, the reaction orders is derived and discussed.…”

Section: Resultssupporting

confidence: 86%

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Surface Oxygen Exchange Properties of Sr Doped La₂NiO_4+δas SOFC Cathode: Thin-Film Electrical Conductivity Relaxation Investigation

Guan

Zhang

et al. 2015

ECS Trans.

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La 2-x Sr x NiO 4+δ dense films are prepared by a novel spray-modified pressing method. The surface reaction kinetics is investigated via electrical conductivity relaxation (ECR). The layer thickness, 5~10 μm, is much less than the characteristic length of lanthanum nickelates, resulting in surface-controlled situation and allowing more accurate fitting than the traditional pellets ECR on the surface exchange coefficient (k). k for LNO is 1.6×10 -5 cm/s in 0.2 atm at 700 o C. Sr doping impairs the exchange kinetics, and k of Sr40 is about one order of magnitude smaller than undoped one. Interstitial oxygen and Ni oxidation state are suggested the predominant roles in determining surface kinetics. Given the properties of the thin-film herein developed by spray-modified pressing are closer to those in practical porous electrode compared to pulsed laser deposited film in terms of preferential orientation and strain, it warrants the use of such a method in a variety of pertinent investigations.

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Section: Resultssupporting

confidence: 86%

“…La 2-x Sr x NiO 4+δ (x=0, 0.2, 0.4) with R-P phase are first synthesized as reported elsewhere in detail (17). In short, stoichiometric nitrates together with citric acid were dissolved into distilled water.…”

Section: Methodsmentioning

confidence: 99%

Surface Oxygen Exchange Properties of Sr Doped La₂NiO_4+δas SOFC Cathode: Thin-Film Electrical Conductivity Relaxation Investigation

Guan

Zhang

et al. 2015

ECS Trans.

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“…On the contrary, Guan et al . reported that the electrochemical performance of (La 1− x Sr x ) 2 NiO 4+ δ ( x =0–0.2) electrodes applied on yttria‐stabilized zirconia solid electrolyte with a CGO10 buffer layer decreases progressively with increasing Sr content ( R η =0.41 Ω cm 2 for x =0 and 14.4 Ω cm 2 for x =0.2 at 700 °C) and attributed this to a decrease of both the bulk oxygen diffusion and surface exchange rates caused by Sr substitution.…”

Section: Introductionmentioning

confidence: 99%

Impact of Oxygen Deficiency on the Electrochemical Performance of K₂NiF₄‐Type (La_1−xSr_x)₂NiO_4−δ Oxygen Electrodes

et al. 2016

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Perovskite-related (La Sr ) NiO (x=0.5-0.8) phases were explored for possible use as oxygen electrodes in solid electrolyte cells with a main focus on the effect of oxygen deficiency on the electrocatalytic activity. (La Sr ) NiO solid solutions were demonstrated to preserve the K NiF -type tetragonal structure under oxidizing conditions. Acceptor-type substitution by Sr is compensated by the formation of oxygen vacancies and electron holes and progressively increases high-temperature oxygen nonstoichiometry, which reaches as high as δ=0.40 for x=0.8 at 950 °C in air. The electrical conductivity of (La Sr ) NiO ceramics at 500-1000 °C and p(O )≥10 atm is p-type metallic-like. The highest conductivity, 300 S cm at 800 °C in air, is observed for x=0.6. The average thermal expansion coefficients, (14.0-15.4)×10 K at 25-900 °C in air, are sufficiently low to ensure the thermomechanical compatibility with common solid electrolytes. The polarization resistance of porous (La Sr ) NiO electrodes applied on a Ce Gd O solid electrolyte decreases with increasing Sr concentration in correlation with the concentration of oxygen vacancies in the nickelate lattice and the anticipated level of mixed ionic-electronic conduction. However, this is accompanied by increasing reactivity between the cell components and necessitates the microstructural optimization of the electrode materials to reduce the electrode fabrication temperature.

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“…Therefore, the exploration of novel IT cathode materials with reduced polarization resistance is imperative to minimize the overall energy loss. In recent, A 2 BO 4+δ R-P phase lanthanum nickelates have attracted increasing research interests [7][8][9]. Such materials feature a layered structure of alternative stacking LaO rock salt with ABO 3 perovskite.…”

Section: Introductionmentioning

confidence: 99%

Enhanced surface exchange activity and electrode performance of (La2−2xSr2x)(Ni1−xMnx)O4+δ cathode for intermediate temperature solid oxide fuel cells

Guan

Yan

et al. 2016

Journal of Power Sources

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Surface exchange kinetics of Ruddlesden-Popper (R-P) phase lanthanum nickelates upon Mn doping as an intermediate temperature solid oxide fuel cells (IT-SOFCs) cathode is investigated for the first time in this communication. To promote the exchange rate in oxygen reduction reaction (ORR) on nickelates, Mn is partially substituted for Ni. The oxygen exchange resistance is accurately measured by electrochemical impedance spectroscopy (EIS) with dense thin layer cathode. It is found that Mn substantially promotes the surface kinetics; a surface exchange coefficient (k) of 1.57×10 -6 cm/s is obtained at 700 o C for La 1.8 Sr 0.2 Ni 0.9 Mn 0.1 O 4+δ (Sr20Mn10), ~80% higher than that of the undoped La 2 NiO 4+δ (LNO). To our best knowledge, such coefficient is the highest values among the currently available R-P phase IT-SOFC cathodes. The corresponding polarization resistances (R p ) are evaluated on porous electrodes. R p for LNO is 0.74 Ωcm 2 at 750 o C, but decreases significantly to 0.42 Ωcm 2 for Sr20Mn10 which is remarkably improved compared to the reported values in the literature for La 2 MO 4+δ materials (M=transition metal). Those promising results demonstrate that Mn-doped LNO is a new excellent cathode material for IT-SOFC.

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Oxygen Reduction Reaction Kinetics in Sr-Doped La₂NiO_4+δRuddlesden-Popper Phase as Cathode for Solid Oxide Fuel Cells

Cited by 47 publications

References 54 publications

Surface Oxygen Exchange Properties of Sr Doped La₂NiO_4+δas SOFC Cathode: Thin-Film Electrical Conductivity Relaxation Investigation

Surface Oxygen Exchange Properties of Sr Doped La₂NiO_4+δas SOFC Cathode: Thin-Film Electrical Conductivity Relaxation Investigation

Impact of Oxygen Deficiency on the Electrochemical Performance of K₂NiF₄‐Type (La_1−xSr_x)₂NiO_4−δ Oxygen Electrodes

Enhanced surface exchange activity and electrode performance of (La2−2xSr2x)(Ni1−xMnx)O4+δ cathode for intermediate temperature solid oxide fuel cells

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Oxygen Reduction Reaction Kinetics in Sr-Doped La2NiO4+δRuddlesden-Popper Phase as Cathode for Solid Oxide Fuel Cells

Cited by 47 publications

References 54 publications

Surface Oxygen Exchange Properties of Sr Doped La2NiO4+δ as SOFC Cathode: Thin-Film Electrical Conductivity Relaxation Investigation

Surface Oxygen Exchange Properties of Sr Doped La2NiO4+δ as SOFC Cathode: Thin-Film Electrical Conductivity Relaxation Investigation

Impact of Oxygen Deficiency on the Electrochemical Performance of K2NiF4‐Type (La1−xSrx)2NiO4−δ Oxygen Electrodes

Enhanced surface exchange activity and electrode performance of (La2−2xSr2x)(Ni1−xMnx)O4+δ cathode for intermediate temperature solid oxide fuel cells

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Oxygen Reduction Reaction Kinetics in Sr-Doped La₂NiO_4+δRuddlesden-Popper Phase as Cathode for Solid Oxide Fuel Cells

Surface Oxygen Exchange Properties of Sr Doped La₂NiO_4+δas SOFC Cathode: Thin-Film Electrical Conductivity Relaxation Investigation

Surface Oxygen Exchange Properties of Sr Doped La₂NiO_4+δas SOFC Cathode: Thin-Film Electrical Conductivity Relaxation Investigation

Impact of Oxygen Deficiency on the Electrochemical Performance of K₂NiF₄‐Type (La_1−xSr_x)₂NiO_4−δ Oxygen Electrodes