Giant Tuning of Electronic and Thermoelectric Properties by Epitaxial Strain in p-Type Sr-Doped LaCrO₃ Transparent Thin Films

Abstract: The impact of epitaxial strain on the structural, electronic, and thermoelectric properties of p-type transparent Sr-doped LaCrO3 thin films has been investigated. For this purpose, high-quality fully-strained La0.75Sr0.25CrO3 (LSCO) epitaxial thin films were grown by molecular beam epitaxy on three different (pseudo)cubic ( 001)-oriented perovskite-oxide substrates: LaAlO3, (LaAlO3)0.3(Sr2AlTaO6)0.7, and DyScO3. The lattice mismatch between the LSCO films and the substrates induces in-plane strain ranging fro… Show more

“…The electrical resistivity of vacuum deposited epitaxial LSCO films is reported to be higher on STO substrates than on LAO due to strain effects. − Indeed, no measurable electrical conductivity was found for our CSD-LSCO films on STO (not shown). Therefore, for the purpose of this study, the electrical properties of ∼45 nm - LSCO films have been measured on LAO substrates.…”

“…In-plane texture of LSCO on LAO has been investigated from a phi-scan, Δϕ (103), LSCO = 1.4° and Δϕ (103), LAO = 0.2°, and the out-of-plane texture from the rocking curve, Δω (003), LSCO = 0.4°, which confirm that films are biaxially textured; see Figures a,b. From the XRD-RSM, Figure c, the in-plane, a , and out-of-plane, c , lattice parameters of LSCO have been extracted considering a pseudocubic symmetry, resulting a = 3.867 ± 0.023 Å and c = 3.896 ± 0.005 Å ( a LSCObulk = 3.876 Å). − The films show subtle in-plane compressive strain of −0.232% and an out-of-plane tensile strain of 0.516%. These results were further confirmed from strain maps by STEM images using geometrical phase analysis (GPA), Figure S7.…”

“…Consequently, closed and quasi-closed shell electronic configurations of cation species ( d 10 , d 6 , d 3 ) are the best candidates to reduce localization of holes in oxygen ions and minimize colorization from the metal d–d excitation. In this line, some new p -type TCOs based on Cr 3+ oxides ( d 3 in octahedral configuration) have been already identified − among which Sr-doped LaCrO 3 appears as a strong candidate with reasonably high transparency and p -type conductivity. − Importantly, the ability to grow these materials as epitaxial films can be used as a lever to tune the physical properties. − In fact, it has been recently demonstrated that electric conductivity of Sr-doped LaCrO 3 films grown by molecular beam epitaxy (MBE) can be finely tuned through epitaxial strain . Nevertheless, when evaluating the suitability of an oxide material to be used as a TCO, along with high electrical conductivity and optical transmittance, it is important to consider cost-effective and sustainable processing techniques.…”

“…In this line, some new p -type TCOs based on Cr 3+ oxides ( d 3 in octahedral configuration) have been already identified 20 − 22 among which Sr-doped LaCrO 3 appears as a strong candidate with reasonably high transparency and p -type conductivity. 23 − 26 Importantly, the ability to grow these materials as epitaxial films can be used as a lever to tune the physical properties. 27 − 29 In fact, it has been recently demonstrated that electric conductivity of Sr-doped LaCrO 3 films grown by molecular beam epitaxy (MBE) can be finely tuned through epitaxial strain.…”

Chemical Synthesis of La_0.75Sr_0.25CrO₃ Thin Films for p-Type Transparent Conducting Electrodes

“…The electrical resistivity of vacuum deposited epitaxial LSCO films is reported to be higher on STO substrates than on LAO due to strain effects. − Indeed, no measurable electrical conductivity was found for our CSD-LSCO films on STO (not shown). Therefore, for the purpose of this study, the electrical properties of ∼45 nm - LSCO films have been measured on LAO substrates.…”

“…In-plane texture of LSCO on LAO has been investigated from a phi-scan, Δϕ (103), LSCO = 1.4° and Δϕ (103), LAO = 0.2°, and the out-of-plane texture from the rocking curve, Δω (003), LSCO = 0.4°, which confirm that films are biaxially textured; see Figures a,b. From the XRD-RSM, Figure c, the in-plane, a , and out-of-plane, c , lattice parameters of LSCO have been extracted considering a pseudocubic symmetry, resulting a = 3.867 ± 0.023 Å and c = 3.896 ± 0.005 Å ( a LSCObulk = 3.876 Å). − The films show subtle in-plane compressive strain of −0.232% and an out-of-plane tensile strain of 0.516%. These results were further confirmed from strain maps by STEM images using geometrical phase analysis (GPA), Figure S7.…”

“…Consequently, closed and quasi-closed shell electronic configurations of cation species ( d 10 , d 6 , d 3 ) are the best candidates to reduce localization of holes in oxygen ions and minimize colorization from the metal d–d excitation. In this line, some new p -type TCOs based on Cr 3+ oxides ( d 3 in octahedral configuration) have been already identified − among which Sr-doped LaCrO 3 appears as a strong candidate with reasonably high transparency and p -type conductivity. − Importantly, the ability to grow these materials as epitaxial films can be used as a lever to tune the physical properties. − In fact, it has been recently demonstrated that electric conductivity of Sr-doped LaCrO 3 films grown by molecular beam epitaxy (MBE) can be finely tuned through epitaxial strain . Nevertheless, when evaluating the suitability of an oxide material to be used as a TCO, along with high electrical conductivity and optical transmittance, it is important to consider cost-effective and sustainable processing techniques.…”

“…In this line, some new p -type TCOs based on Cr 3+ oxides ( d 3 in octahedral configuration) have been already identified 20 − 22 among which Sr-doped LaCrO 3 appears as a strong candidate with reasonably high transparency and p -type conductivity. 23 − 26 Importantly, the ability to grow these materials as epitaxial films can be used as a lever to tune the physical properties. 27 − 29 In fact, it has been recently demonstrated that electric conductivity of Sr-doped LaCrO 3 films grown by molecular beam epitaxy (MBE) can be finely tuned through epitaxial strain.…”

Chemical Synthesis of La_0.75Sr_0.25CrO₃ Thin Films for p-Type Transparent Conducting Electrodes

“…In the case of LaCrO 3 thin films, the pseudocubic phase has been grown epitaxially on SrTiO 3 (001) to use strain to tune magnetic and optical properties ( 36 ). Furthermore, substitutions in M x La 1− x CrO 3 (i.e., M = Sr, x < 0.25) has been used to control p-type doping and induce in-plane ≈2% compressive to ≈2% tensile strain ( 37 ). For R FeO 3 ( R = Nd, Ce, Tb, Sm), high-quality crystals on the order of centimeter (length) and millimeter (diameter) have been grown with floating zone techniques ( 38 , 39 ).…”

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