Molecular materials with a polar arrangement of the constituent dipoles are good candidates for exhibiting piezoelectric properties directly related to the strain-induced polarization. We assess, from first principles, the properties of the metal-organic molecular crystal (4-dimethylaminopyridyl)bis(acetylacetato)zinc(II) in presence of strain. The spontaneous polarization and the piezoelectric properties are studied by means of the modern theory of polarization. The cooperative interaction among molecular chains is shown to lead to a collective polarization enhancement effect. Some theoretical issues concerning the multivalued behavior of the Berry phase are also illustrated.
Spontaneous polarization and piezoelectricity in polar molecular crystals
Cantele G;Ninno D;
2009
Abstract
Molecular materials with a polar arrangement of the constituent dipoles are good candidates for exhibiting piezoelectric properties directly related to the strain-induced polarization. We assess, from first principles, the properties of the metal-organic molecular crystal (4-dimethylaminopyridyl)bis(acetylacetato)zinc(II) in presence of strain. The spontaneous polarization and the piezoelectric properties are studied by means of the modern theory of polarization. The cooperative interaction among molecular chains is shown to lead to a collective polarization enhancement effect. Some theoretical issues concerning the multivalued behavior of the Berry phase are also illustrated.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.