The critical role of stereochemically active lone pair in introducing high temperature ferroelectricity

Abstract

In this paper a comparative structural, dielectric and magnetic study of two langasite compounds Ba3TeCo3P2O14 (absence of lone pair) and Pb3TeCo3P2O14 (Pb2+ 6s2 lone pair) have been carried out to precisely explore the development of room temperature spontaneous polarization in presence of stereochemically active lone pair. In case of Pb3TeCo3P2O14, mixing of both Pb 6s with Pb 6p and O 2p help the lone pair to be stereochemically active. This stereochemically active lone pair brings a large structural distortion within the unit cell and creates a polar geometry, while Ba3TeCo3P2O14 compound remains in a nonpolar structure due to the absence of any such effect. Consequently, polarization measurement under varying electric field confirms room temperature ferroelectricity for Pb3TeCo3P2O14, which was not the case of Ba3TeCo3P2O14. Detailed study was carried out to understand the microscopic mechanism of ferroelectricity which revealed the exciting underlying activity of poler TeO6 octahedral unit as well as Pb-hexagon.