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Mixed oxygen-ionic and electronic

In the last 20 years, the mixed oxygen-ionic and electronic conducting (MIEC) ceramic membranes such as Lai Sr Coi Fe Os perovskite that exhibit appreciable oxygen ionic and electronic conductivity at elevated... [Pg.253]

Apart from the perovskite oxides, some non-perovskite-type oxides also exhibit mixed oxygen ionic and electronic conducting properties and are used as the oxygen-separation membrane, which has been discussed in detail elsewhere (Liu et al, 2006). [Pg.277]

Double Substitution In such processes, two substitutions take place simultaneously. For example, in perovskite oxides, La may be replaced by Sr at the same time as Co is replaced by Fe to give solid solutions Lai Sr Coi yFey03 5. These materials exhibit mixed ionic and electronic conduction at high temperatures and have been used in a number of applications, including solid oxide fuel cells and oxygen separation. [Pg.425]

It is well known that dense ceramic membranes made of the mixture of ionic and electron conductors are permeable to oxygen at elevated temperatures. For example, perovskite-type oxides (e.g., La-Sr-Fe-Co, Sr-Fe-Co, and Ba-Sr-Co-Fe-based mixed oxide systems) are good oxygen-permeable ceramics. Figure 2.11 depicts a conceptual design of an oxygen membrane reactor equipped with an OPM. A detail of the ceramic membrane wall... [Pg.53]

Fig. 3. Oxygen transport in solids. 02 is dissociated and ionized at the reduction interface to give O2 ions, which are transferred across the solid to the oxidation interface, at which they lose the electrons to return back to 02 molecules that are released to the stream, (a) In the solid electrolyte cell based on a classical solid electrolyte, the ionic oxygen transport requires electrodes and external circuitry to transfer the electrons from the oxidation interface to the reduction interface (b) in the mixed conducting oxide membrane, the ionic oxygen transport does not require electrodes and external circuitry to transfer the electrons to the reduction interface from the oxidation interface, because the mixed conductor oxide provides high conductivities for both oxygen ions and electrons. Fig. 3. Oxygen transport in solids. 02 is dissociated and ionized at the reduction interface to give O2 ions, which are transferred across the solid to the oxidation interface, at which they lose the electrons to return back to 02 molecules that are released to the stream, (a) In the solid electrolyte cell based on a classical solid electrolyte, the ionic oxygen transport requires electrodes and external circuitry to transfer the electrons from the oxidation interface to the reduction interface (b) in the mixed conducting oxide membrane, the ionic oxygen transport does not require electrodes and external circuitry to transfer the electrons to the reduction interface from the oxidation interface, because the mixed conductor oxide provides high conductivities for both oxygen ions and electrons.
This is not exactly the order as the electronic conductivity of the oxides, indicating that electrocatalytic activity of mixed ionic and electronic conducting (MIEC) oxides depends on other properties such as the oxygen exchange and ionic conductivities. [Pg.152]

See other pages where Mixed oxygen-ionic and electronic is mentioned: [Pg.153]    [Pg.301]    [Pg.153]    [Pg.301]    [Pg.435]    [Pg.436]    [Pg.241]    [Pg.189]    [Pg.266]    [Pg.235]    [Pg.489]    [Pg.489]    [Pg.703]    [Pg.379]    [Pg.328]    [Pg.554]    [Pg.570]    [Pg.13]    [Pg.1]    [Pg.25]    [Pg.362]    [Pg.367]    [Pg.9]    [Pg.56]    [Pg.328]    [Pg.1810]    [Pg.120]    [Pg.331]    [Pg.76]    [Pg.44]    [Pg.180]    [Pg.438]    [Pg.449]    [Pg.462]    [Pg.472]    [Pg.201]    [Pg.75]    [Pg.301]    [Pg.428]    [Pg.35]    [Pg.32]    [Pg.1809]    [Pg.7]    [Pg.12]   


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