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Transition metal-doped SrTiO: when does a tiny chemical impact have such a great structural response?

The effect of doping on the chemical and physical properties of semiconductors, alloys, ferroelectrics, glasses, and other substances has been a classic topic in materials science for centuries. Strontium titanate, SrTiO 3 , is an archetypal perovskite of interest for both fundamental science as qua...

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Published in:Journal of materials chemistry. C, Materials for optical and electronic devices Materials for optical and electronic devices, 2024-06, Vol.12 (22), p.815-8118
Main Authors: Talanov, Mikhail V, Stash, Adam I, Ivanov, Sergey A, Zhukova, Elena S, Gorshunov, Boris. P, Nekrasov, Boris M, Melentev, Alexander V, Kozlov, Vladislav I, Cherepanov, Valery M, Gavrilkin, Sergey Yu, Tsvetkov, Aleksey Yu, Zavidovskiy, Ilya A, Tatmyshevskiy, Mikhail K, Savinov, Maxim, Talanov, Valeriy M, Bush, Alexander A
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Summary:The effect of doping on the chemical and physical properties of semiconductors, alloys, ferroelectrics, glasses, and other substances has been a classic topic in materials science for centuries. Strontium titanate, SrTiO 3 , is an archetypal perovskite of interest for both fundamental science as quantum paraelectric and numerous outstanding physical properties and applications, including dielectrics, tunable microwave and photovoltaic devices, superconductors, thermoelectrics, potential multiferroics. Its chemical doping with transition metals leads to new functionalities, but intrinsic mechanisms of structural responses, activated by impurities, have not been systematically investigated. Herein, we present the results of a comparative study of the crystal structure, vibrational spectra, and dielectric properties of SrTiO 3 :M (M = Mn, Ni, and Fe, 2 at%) single crystals. It is shown that impurities constitute a different tendency to off-centering and the formation of dipoles: Mn and Fe atoms are shifted from the center of the oxygen octahedron, while Ni atoms remain on-centered. As a result, small chemical doping has a dramatic effect on the dielectric response through various structural mechanisms, including the pseudo Jahn-Teller effect, the first-order Jahn-Teller effect, and defect-induced distortion. These findings open up fundamentally new possibilities for the practical solution of a difficult problem: controlling the dielectric responses of quantum paraelectrics by choosing the type of chemical additive. Weak (2 at%) doping of SrTiO 3 by Mn, Ni and Fe leads to radically different changes in structural and dielectric properties, demonstrating clear signs of pseudo Jahn-Teller effect, the first-order Jahn-Teller effect and defect-induced distortion.
ISSN:2050-7526
2050-7534
DOI:10.1039/d4tc00180j