Modulation of ferroelectricity and resistance switching in SrTiO$_{\mathrm{3}}$ films

SrTiO$_{\mathrm{3}}$ has remarkable dielectric property; it also exhibits ferroelectricity in thin films with strain or defects. It is expected that modulation of its ferroelectricity and electricity is potential in oxide electronics. The nonstoichiometry SrTiO$_{\mathrm{3}}$ thin films with different cation concentrations were prepared on Si (001) substrates. Piezoresponse force microscopy measurements show that those films with Sr deficiency display obvious ferroelectricity. The scanning transmission electron microscopy results show that there are interstitial Ti atoms in the unit cells. Polar defect pairs can be formed by the interstitial Ti atoms and Sr vacancies along [100] or [110] direction. Such antisitelike defects observed in SrTiO$_{\mathrm{3}}$ films are considered as the origin of the ferroelectricity. In this way, the SrTiO$_{\mathrm{3}}$ ferroelectricity can be modulated by control the concentration of the antisitelike defects via changing the cation concentration. Further, [(SrTiO$_{\mathrm{3}})_{\mathrm{3}}$/(LaTiO$_{\mathrm{3}})_{\mathrm{2}}$]$_{\mathrm{3}}$ superlattices have been prepared on 0.67[Pb(Mg$_{\mathrm{1/3}}$Nb$_{\mathrm{2/3}})$O$_{\mathrm{3}}$]-0.33[PbTiO$_{\mathrm{3}}$] (PMN-PT) substrate. The superlattices show resistance switching under the ferroelectric polarization of the PMN-PT substrate. The on/off ratio of the interfacial resistance is about 20{\%}\textasciitilde 25{\%}. This can be applied in oxide electronics in potential.