R.H.E. van Doorn scite author profile

New results on the oxygen permeability of perovskite-type oxides SrCoo.sB~.203_ a (with B' =Cr, Fe, Co and Cu) and Lao.6Sro.4CoO3_6 are presented. The occurrence of order-disorder transitions at elevated temperatures (790-940°C) in these phases has been confirmed by DSC measurements and, in some cases, by X-ray powder diffraction of samples either slowly cooled or quenched from high temperature after annealing in different atmospheres. The oxygen permeability found upon exposing opposite sides of sealed disc specimens to a stream of air and of helium, respectively, increases sharply (between 5-6 orders of magnitude up to 0.3-3 × 10-7 mol cm -2 s-1 ) at the onset of the transition from a low-temperature vacancy-ordered state to defect perovskite, except for SrCoo.sFeo.203_a. In the latter case only a slight anomaly is found in the Arrhenius plot of the oxygen permeability at ~ 790 ° C. The comparatively high oxygen flux through SrCo0.aFeo.203_a observed at intermediate temperatures is interpreted in terms of a two-phase mixture of a vacancy-ordered state and disordered perovskite, while above ~ 790°C the sample is single-phase of defect perovskite structure.

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Surface oxygen exchange of LaSrCoO

Doorn

et al. 1997

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The surface oxygen exchange of Lao.3Sro,, Co0,_6 has been studied by 'SO/'hO exchange followed by dynamic SIMS analysis in the temperature region 700-900°C at a po, of 2.1 X lo4 Pa. The activation energy for the surface exchange rate (k) is 283 kJ mol -' and for the oxygen tracer diffusion coefficient (D *) 56t4 kJ mol-' The absolute values for both k and D * are among the highest known in the literature. The characteristic thickness at a po, of 2.1 X lo4 Pa is calculated to lie in the range 0.70 to 1.3 mm and is a function of temperature. The latter reflects the different activation energies for k and D*. The surface oxygen exchange coefficient is proportional to p& with n =0.41 to.02 at WYC, which has been explained by a rate determining step involving an adsorbed oxygen species and an oxygen vacancy. No oxygen pressure dependence for the tracer diffusion coefficient was observed at this temperature.

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Structural aspects of the ionic conductivity of La1âxSrxCoO3âÎ´

Doorn

Burggraaf

2000

151

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Kinetic decomposition of La0.3Sr0.7CoO3−δ perovskite membranes during oxygen permeation

Doorn

Bouwmeester

Burggraaf

1998

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About the crystal structure of La_1−xSr_xCoO_3−δ (0≤x≤0.6)

et al. 1996

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The crystal structure of La1−xSrxCoO3−δ (0≤x≤0.6) has been studied, using powder X-Ray diffraction. The crystal structure shows a transition from rhombohedral distorted perovskite for LaCoO3−δ into cubic perovskite for La0.4Sr0.6CoO3−δ. The cubic unit cell parameter is ac=3.8342(1) Å for La0.4Sr0.6CoO3−δ, the space group probably being Pm3m. Using a hexagonal setting, the cell parameters for La0.5Sr0.5CoO3−δ, are a=5.4300(3) Å, c=13.2516(10) Å; a=5.4375(1) Å, c=13.2313(4) Å for La0.6Sr0.4CoO3−δ; a=5.4437(1) Å, c=13.2085(5) Å for La0.7Sr0.3CoO3−δ; a=5.4497(2) Å, c=13.1781(6) Å for La0.8Sr0.2CoO3−δ and a=5.4445(2) Å, c=13.0936(6) Å for LaCoO3−δ with the space group probably being R3c.

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R.H.E. van Doorn

Influence of order-disorder transitions on oxygen permeability through selected nonstoichiometric perovskite-type oxides

Surface oxygen exchange of LaSrCoO

Structural aspects of the ionic conductivity of La1âxSrxCoO3âÎ´

Kinetic decomposition of La0.3Sr0.7CoO3−δ perovskite membranes during oxygen permeation

About the crystal structure of La_1−xSr_xCoO_3−δ (0≤x≤0.6)

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R.H.E. van Doorn

Influence of order-disorder transitions on oxygen permeability through selected nonstoichiometric perovskite-type oxides

Surface oxygen exchange of LaSrCoO

Structural aspects of the ionic conductivity of La1âxSrxCoO3âÎ´

Kinetic decomposition of La0.3Sr0.7CoO3−δ perovskite membranes during oxygen permeation

About the crystal structure of La1−xSrxCoO3−δ (0≤x≤0.6)

Contact Info

Product

Resources

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Structural aspects of the ionic conductivity of La1âxSrxCoO3âÎ´

About the crystal structure of La_1−xSr_xCoO_3−δ (0≤x≤0.6)