Unravelling the Origin of Ultra‐Low Conductivity in SrTiO<sub>3</sub> Thin Films: Sr Vacancies and Ti on A‐Sites Cause Fermi Level Pinning

Morgenbesser, Maximilian; Viernstein, Alexander; Schmid, Alexander; Herzig, Christopher; Kubicek, Markus; Taibl, Stefanie; Bimashofer, Gesara; Stahn, Jochen; Vaz, C. A. F.; Döbeli, M.; Biautti, Federico; Sirvent, Juan de Dios; Liedke, Maciej Oskar; Butterling, Maik; Kamiński, Michał; Tolkiehn, Martin; Vonk, Vedran; Stierle, Andreas; Wagner, Andreas; Tarancón, Albert; Limbeck, Andreas; Fleig, Jürgen

doi:10.1002/adfm.202202226

Cited by 5 publications

(3 citation statements)

References 124 publications

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“…Understanding the impact of strain and interfaces is key for the development of more efficient and sustainable materials for SOFC applications [101][102][103][104][105][106][107][108][109][110]. The intriguing study of Garcia-Barriocanal et al [4] determined that in nanostructured SrTiO 3 /YSZ/SrTiO 3 heterostructures, there is colossal conductivity.…”

Section: Interfaces and Strainmentioning

confidence: 99%

The Evolution of Solid Oxide Fuel Cell Materials

Chroneos,

Goulatis,

Solovjov

et al. 2023

Applied Sciences

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Solid oxide fuel cells (SOFCs) are a key component of the future energy landscape. Although there is considerable research on the physical properties and technology of classic oxide materials for electrode and electrolytes in SOFCs, the field is very active as new experimental and theoretical techniques are now available that can improve these systems. In the present review, we consider key systems such as perovskite-related materials, the impact of strain and interfaces and advanced concepts that can improve the properties of SOFC materials. In particular, we consider the oxygen diffusion properties of perovskite-related materials and focus on La2NiO4+δ and the double perovskites such as GdBaCo2O5.5. Then, we review the importance of interfaces and strain as a way to engineer defect processes. Finally, we consider advanced concepts to form designed structures that explore the effect of local high entropy on lattice stabilization.

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Section: Interfaces and Strainmentioning

confidence: 99%

The Evolution of Solid Oxide Fuel Cell Materials

Chroneos,

Goulatis,

Solovjov

et al. 2023

Applied Sciences

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“…16 While cationic off-stoichiometry in SrTiO 3 lms has been extensively studied for low-temperature resistive switch properties, its inuence on photocatalytic or photo-electrocatalytic properties related to water splitting has received less attention. 17,18 Kato et al reported improved photocatalytic activity with excess strontium in SrTiO 3 lms, attributing this effect to the reduction of SrO defects acting as electron/hole recombination centers. 19 Yamada et al further corroborated this behaviour, demonstrating enhanced hydrogen production with a Sr/Ti ratio of 1.15.…”

Section: Introductionmentioning

confidence: 99%

SrTiO₃ thin film photoanodes fabricated by combinatorial chemical beam vapour deposition: intricate connection between elemental composition and thin films' properties

Rogé,

Garlisi,

Popa

et al. 2024

J. Mater. Chem. A

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“…The difference of A-and B-site non-stoichiometry originates from the central role of Mn atoms in the electronic transport properties [13]. In SrTiO 3 , both A and B site vacancies produce a negative effect on electronic conductivity [16,17]. However, robust magnetic order can also be stabilized in the presence of cationic nonstoichiometry, as found for antisite defects at the interface between LaAlO 3 /SrTiO 3 [18] and in the presence of Ti-O vacancy clusters in SrTiO 3 [19].…”

Section: Introductionmentioning

confidence: 99%

The impact of Mn nonstoichiometry on the oxygen mass transport properties of La_0.8Sr_0.2Mn _y O_3±δ thin films

et al. 2022

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Oxygen mass transport in perovskite oxides is relevant for a variety of energy and information technologies. In oxide thin films, cation nonstoichiometry is often found but its impact on the oxygen transport properties is not well understood. Here, we used oxygen isotope exchange depth profile technique coupled with secondary ion mass spectrometry (IEDP-SIMS) to study oxygen mass transport and the defect compensation mechanism of Mn-deficient La0.8Sr0.2MnyO3±δ epitaxial thin films. Oxygen diffusivity and surface exchange coefficients were observed to be consistent with literature measurements and to be independent on the degree of Mn deficiency in the layers. Defect chemistry modelling, together with a collection of different experimental techniques, suggests that the Mn-deficiency is mainly compensated by the formation of LaMn x antisite defects. The results highlight the importance of antisite defects in perovskite thin films for mitigating cationic nonstoichiometry effects on oxygen mass transport properties.

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Unravelling the Origin of Ultra‐Low Conductivity in SrTiO₃ Thin Films: Sr Vacancies and Ti on A‐Sites Cause Fermi Level Pinning

Cited by 5 publications

References 124 publications

The Evolution of Solid Oxide Fuel Cell Materials

The Evolution of Solid Oxide Fuel Cell Materials

SrTiO₃ thin film photoanodes fabricated by combinatorial chemical beam vapour deposition: intricate connection between elemental composition and thin films' properties

The impact of Mn nonstoichiometry on the oxygen mass transport properties of La_0.8Sr_0.2Mn _y O_3±δ thin films

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Unravelling the Origin of Ultra‐Low Conductivity in SrTiO3 Thin Films: Sr Vacancies and Ti on A‐Sites Cause Fermi Level Pinning

Cited by 5 publications

References 124 publications

The Evolution of Solid Oxide Fuel Cell Materials

The Evolution of Solid Oxide Fuel Cell Materials

SrTiO3 thin film photoanodes fabricated by combinatorial chemical beam vapour deposition: intricate connection between elemental composition and thin films' properties

The impact of Mn nonstoichiometry on the oxygen mass transport properties of La0.8Sr0.2Mn y O3±δ thin films

Contact Info

Product

Resources

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Unravelling the Origin of Ultra‐Low Conductivity in SrTiO₃ Thin Films: Sr Vacancies and Ti on A‐Sites Cause Fermi Level Pinning

SrTiO₃ thin film photoanodes fabricated by combinatorial chemical beam vapour deposition: intricate connection between elemental composition and thin films' properties

The impact of Mn nonstoichiometry on the oxygen mass transport properties of La_0.8Sr_0.2Mn _y O_3±δ thin films