Effects of Sn2+ Ion Size on Sn Doped SrTiO3

We discuss the doping effect of Sn 2+ on ATiO 3 perovskites by comparing with those of Pb and Ba. The solution energy of Sn into A sites of ATiO 3 perovskites shows minimum when the lattice size is almost the same as that of SrTiO 3 (STO), as determined by first-principles calculations. In dielectri...

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Veröffentlicht in:	Jpn J Appl Phys 2013-09, Vol.52 (9), p.09KC04-09KC04-3
Hauptverfasser:	Suzuki, Shoichiro, Honda, Atsushi, Suzuki, Keigo, Higai, Shin'ichi, Ando, Akira, Niwa, Ken, Hasegawa, Masashi
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container_title	Jpn J Appl Phys
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creator	Suzuki, Shoichiro Honda, Atsushi Suzuki, Keigo Higai, Shin'ichi Ando, Akira Niwa, Ken Hasegawa, Masashi
description	We discuss the doping effect of Sn 2+ on ATiO 3 perovskites by comparing with those of Pb and Ba. The solution energy of Sn into A sites of ATiO 3 perovskites shows minimum when the lattice size is almost the same as that of SrTiO 3 (STO), as determined by first-principles calculations. In dielectric measurements of these STO-based ceramics, the Sn 2+ -doped STO ceramics showed a higher peak temperature than the Pb 2+ - or Ba 2+ -doped STO ceramics at the same doping amount. In addition, the maximum polarization obtained in the Sn 2+ -doped STO ceramics was larger than that obtained in the Pb 2+ - or Ba 2+ -doped ceramics in terms of the relationship between the polarization and electric field curve measurement at room temperature. The piezoresponse was also observed in the Sn 2+ -doped STO ceramics at room temperature by piezoresponse force microscopy. We propose that these effects originate from the bond length between Sn 2+ and O 2- which is smaller than that between Pb 2+ and O 2- . The Sn 2+ ion prefers the off-center position at the Sr 2+ site because of the retention of the stable bond length between Sn 2+ and O 2- . These leads to the formation of polar regions and which can assist in the generation of a larger polarization.
doi_str_mv	10.7567/JJAP.52.09KC04
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The solution energy of Sn into A sites of ATiO 3 perovskites shows minimum when the lattice size is almost the same as that of SrTiO 3 (STO), as determined by first-principles calculations. In dielectric measurements of these STO-based ceramics, the Sn 2+ -doped STO ceramics showed a higher peak temperature than the Pb 2+ - or Ba 2+ -doped STO ceramics at the same doping amount. In addition, the maximum polarization obtained in the Sn 2+ -doped STO ceramics was larger than that obtained in the Pb 2+ - or Ba 2+ -doped ceramics in terms of the relationship between the polarization and electric field curve measurement at room temperature. The piezoresponse was also observed in the Sn 2+ -doped STO ceramics at room temperature by piezoresponse force microscopy. We propose that these effects originate from the bond length between Sn 2+ and O 2- which is smaller than that between Pb 2+ and O 2- . The Sn 2+ ion prefers the off-center position at the Sr 2+ site because of the retention of the stable bond length between Sn 2+ and O 2- . 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The solution energy of Sn into A sites of ATiO 3 perovskites shows minimum when the lattice size is almost the same as that of SrTiO 3 (STO), as determined by first-principles calculations. In dielectric measurements of these STO-based ceramics, the Sn 2+ -doped STO ceramics showed a higher peak temperature than the Pb 2+ - or Ba 2+ -doped STO ceramics at the same doping amount. In addition, the maximum polarization obtained in the Sn 2+ -doped STO ceramics was larger than that obtained in the Pb 2+ - or Ba 2+ -doped ceramics in terms of the relationship between the polarization and electric field curve measurement at room temperature. The piezoresponse was also observed in the Sn 2+ -doped STO ceramics at room temperature by piezoresponse force microscopy. We propose that these effects originate from the bond length between Sn 2+ and O 2- which is smaller than that between Pb 2+ and O 2- . The Sn 2+ ion prefers the off-center position at the Sr 2+ site because of the retention of the stable bond length between Sn 2+ and O 2- . 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The solution energy of Sn into A sites of ATiO 3 perovskites shows minimum when the lattice size is almost the same as that of SrTiO 3 (STO), as determined by first-principles calculations. In dielectric measurements of these STO-based ceramics, the Sn 2+ -doped STO ceramics showed a higher peak temperature than the Pb 2+ - or Ba 2+ -doped STO ceramics at the same doping amount. In addition, the maximum polarization obtained in the Sn 2+ -doped STO ceramics was larger than that obtained in the Pb 2+ - or Ba 2+ -doped ceramics in terms of the relationship between the polarization and electric field curve measurement at room temperature. The piezoresponse was also observed in the Sn 2+ -doped STO ceramics at room temperature by piezoresponse force microscopy. We propose that these effects originate from the bond length between Sn 2+ and O 2- which is smaller than that between Pb 2+ and O 2- . The Sn 2+ ion prefers the off-center position at the Sr 2+ site because of the retention of the stable bond length between Sn 2+ and O 2- . These leads to the formation of polar regions and which can assist in the generation of a larger polarization.</abstract><pub>The Japan Society of Applied Physics</pub><doi>10.7567/JJAP.52.09KC04</doi></addata></record>
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title	Effects of Sn2+ Ion Size on Sn Doped SrTiO3
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