2015
DOI: 10.1021/acs.chemmater.5b00622
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Decreasing the Polarization Resistance of (La,Sr)CrO3−δ Solid Oxide Fuel Cell Anodes by Combined Fe and Ru Substitution

Abstract: The perovskite compounds La 0.33 Sr 0.67 Cr 1−x−yFe x Ru y O 3−δ (LSCrFeRu, x = 0.62, 0.57, and 0.47; y = 0.05, 0.14, and 0.2, respectively) were synthesized and assessed as a new type of solid oxide fuel cell (SOFC) anode in composite with Gd 0.1 Ce 0.9 O 2-β (GDC) in La 0.9 Sr 0.1 Ga 0.8 Mg 0.2 O 3-ε / La 0.4 Ce 0.6 O 2 bilayer electrolyte-supported cells. By comparing anode polarization resistance R P,A values for the LSCrFeRu compounds to the either exclusively Fe-or Ru-substituted (La,Sr)CrO 3−δ perovskit… Show more

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Cited by 52 publications
(37 citation statements)
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“…The power law-type dependence, Ri  CH2 n , was obtained with n= -0.45, -0.31, and -0.16 at 450 ˚C, 500 ˚C, and 550 ˚C, respectively. Similar power law dependence of anodic polarization resistance on the H2 partial pressure has been observed in several studies on solid oxide fuel cells 14,24. According to the model Zhu et al developed, a power law exponent of -1 corresponded to dissociative adsorption of H2 as the rate-limiting…”
supporting
confidence: 76%
“…The power law-type dependence, Ri  CH2 n , was obtained with n= -0.45, -0.31, and -0.16 at 450 ˚C, 500 ˚C, and 550 ˚C, respectively. Similar power law dependence of anodic polarization resistance on the H2 partial pressure has been observed in several studies on solid oxide fuel cells 14,24. According to the model Zhu et al developed, a power law exponent of -1 corresponded to dissociative adsorption of H2 as the rate-limiting…”
supporting
confidence: 76%
“…S1) under the conditions of our study (solution infiltration of catalysts into a porous LSCF cathode). The advantages of the nanoparticles derived from an exsolution process over those from other deposition techniques (such as solution infiltration of nanoparticles 27,28 ) include better control over particle size, distribution, and morphological stability. To probe the surface chemistry and electronic structure of the hybrid catalyst in order to explain the mechanism of performance enhancement, we deposited a thinfilm of the catalyst on a model cell with a flat, dense LSCF electrode using pulsed laser deposition (PLD) (ESI, † Fig.…”
Section: Resultsmentioning
confidence: 99%
“…34 This Fe0 formation was accompanied by strongly increased electrochemical water splitting kinetics. Improvement of the hydrogen electrode performance by exsolution of easily reducible transition metals was also demonstrated on various (La,Sr)TiO 3 based materials, 9,55,56 (La,Sr)FeO 3-δ , 33 (La,Sr)CrO 3-δ based materials, [57][58][59][60] and rare earth vanadates. 61 Decreased anode polarization resistance in cells with (La,Sr)(Cr,Ru)O 3-δ anodes was quantitatively modelled by enhanced hydrogen dissociative adsorption at exsolved Ru nanoparticles.…”
Section: As Rmentioning
confidence: 87%