High Dielectric Constants in BaTiO₃ Due to Phonon Mode Softening Induced by Lattice Strains: First Principles Calculations

Abstract: High‐dielectric‐constant materials attract much attention due to their broad applications in modern electronics. Barium titanate (BTO) is an established material possessing an ultrahigh dielectric constant; however, a complete understanding of the responsible underlying physical mechanism remains elusive. Here a set of density‐functional‐theory calculations for the static dielectric tensors of barium titanate under strain has been performed. The dielectric constant increases to ≈7300 under strain. The analysis… Show more

“…In previous works, for PVDF-based composites, the tetragonal phase of BT is often preferred because it has a good balance of both dielectric and piezoelectric properties. [58][59][60][61][62] While numerous previous studies have explored the effect of incorporating ceramic fillers to enhance the ⊎-phase in PVDF matrices, there has not been a comprehensive explanation of how BT particles influence the formation of phase transitions. [63][64][65] Currently, the investigative findings regarding the relationship between the thermal stability of PVDF membranes and crystal formation are very limited.…”

Local analysis of crystalline phases and properties of poly(vinylidene fluoride) electrospun composites with BaTiO₃ nanorods

“…In previous works, for PVDF-based composites, the tetragonal phase of BT is often preferred because it has a good balance of both dielectric and piezoelectric properties. [58][59][60][61][62] While numerous previous studies have explored the effect of incorporating ceramic fillers to enhance the ⊎-phase in PVDF matrices, there has not been a comprehensive explanation of how BT particles influence the formation of phase transitions. [63][64][65] Currently, the investigative findings regarding the relationship between the thermal stability of PVDF membranes and crystal formation are very limited.…”

Local analysis of crystalline phases and properties of poly(vinylidene fluoride) electrospun composites with BaTiO₃ nanorods

Improved dielectric properties of Ba0.5Sr0.5TiO3–ZnAl2O4 composite ceramics using double sintering

Effect of sintering mechanism on dielectric properties of Ba0.5Sr0.5TiO3-ZnAl2O4 composite ceramics synthesized by two-step sintering with low energy consumption