Characterization of electrical conduction and nature of charge carriers in mixed and ionic conductors

“…Interestingly, on cooling below 300 • C, the unit cell parameter of Ba 0.9 La 0.1 Zr 0.25 Sn 0. 25 In 0.5 O 3−a increased and then decreased again. This effect can be explained as due to incorporation of residual water vapor present in synthetic air, and while H 2 O content is below 3 ppm, a constant gas flow on the order of 100 cm 3 min −1 supplied into the oven-chamber was enough for the sample to absorb relatively large quantity of water [45][46][47].…”

“…0.13 mole of water per mole of material, corresponding to the Ba 0.9 La 0.1 Zr 0.25 Sn 0. 25 In 0.5 O 2.93 H 0.26 composition. For the material hydrated at 400 • C, the water content was found to be smaller, ca.…”

“…25 In 0.5 O 3−a oxide are presented. Notwithstanding that the chosen chemical composition is not characterized by a very high proton conductivity, it enabled us to observe the temperature-dependent transition from the single-fold to the two-fold relaxation kinetics associated to the appearance of the electronic hole-related conductivity.…”

“…25 In 0.5 O 3−a oxide can be obtained as a single phase, with no major impurities present in a wide range of temperatures (1200-1600 • C). Figure 1b shows an exemplary diffractogram recorded at room temperature (RT) of a sample after heat treatment at 1400 • C, together with the performed structural refinement.…”

“…25 In 0.5 O 3−a material hydrated at 250 • C are shown in Figure 6a. TG measurements were accompanied by mass spectroscopy studies, and the recorded (relative) ionic current data of H 2 O-and CO 2 -related signals are presented in Figure 6b,c.…”

Crystal Structure, Hydration, and Two-Fold/Single-Fold Diffusion Kinetics in Proton-Conducting Ba0.9La0.1Zr0.25Sn0.25In0.5O3−a Oxide

“…Interestingly, on cooling below 300 • C, the unit cell parameter of Ba 0.9 La 0.1 Zr 0.25 Sn 0. 25 In 0.5 O 3−a increased and then decreased again. This effect can be explained as due to incorporation of residual water vapor present in synthetic air, and while H 2 O content is below 3 ppm, a constant gas flow on the order of 100 cm 3 min −1 supplied into the oven-chamber was enough for the sample to absorb relatively large quantity of water [45][46][47].…”

“…0.13 mole of water per mole of material, corresponding to the Ba 0.9 La 0.1 Zr 0.25 Sn 0. 25 In 0.5 O 2.93 H 0.26 composition. For the material hydrated at 400 • C, the water content was found to be smaller, ca.…”

“…25 In 0.5 O 3−a oxide are presented. Notwithstanding that the chosen chemical composition is not characterized by a very high proton conductivity, it enabled us to observe the temperature-dependent transition from the single-fold to the two-fold relaxation kinetics associated to the appearance of the electronic hole-related conductivity.…”

“…25 In 0.5 O 3−a oxide can be obtained as a single phase, with no major impurities present in a wide range of temperatures (1200-1600 • C). Figure 1b shows an exemplary diffractogram recorded at room temperature (RT) of a sample after heat treatment at 1400 • C, together with the performed structural refinement.…”

“…25 In 0.5 O 3−a material hydrated at 250 • C are shown in Figure 6a. TG measurements were accompanied by mass spectroscopy studies, and the recorded (relative) ionic current data of H 2 O-and CO 2 -related signals are presented in Figure 6b,c.…”

Crystal Structure, Hydration, and Two-Fold/Single-Fold Diffusion Kinetics in Proton-Conducting Ba0.9La0.1Zr0.25Sn0.25In0.5O3−a Oxide

Associating and Tuning Sodium and Oxygen Mixed‐Ion Conduction in Niobium‐Based Perovskites

Mixed ionic-electronic conducting (MIEC) oxide ceramics for electrochemical applications