Bismuth Ferrite-Based Lead-Free High-Entropy Piezoelectric Ceramics

Abstract: Piezoelectric ceramics, as essential components of actuators and transducers, have captured significant attention in both industrial and scientific research. The "entropy engineering" approach has been demonstrated to achieve excellent performance in lead-based materials. In this study, the "entropy engineering" approach was employed to introduce the morphotropic phase boundary (MPB) into the bismuth ferrite (BF)-based lead-free system. By employing this strategy, a serial of novel "medium to high entropy" lea… Show more

“…(b) 10% Bi excess (0.68- x )BFO– x BSO–0.32PTO films with different BSO additions. (c) Piezoelectricity and T c of various systems, including BFO-based films, ,, KNN-based films, − and BNT-based films. − (d) Piezoelectricity and T c of BFO-based films and ceramics. ,− …”

Collaborative Optimization of Curie Temperature and Piezoelectricity in Ternary BiFeO₃–BiScO₃–PbTiO₃

“…(b) 10% Bi excess (0.68- x )BFO– x BSO–0.32PTO films with different BSO additions. (c) Piezoelectricity and T c of various systems, including BFO-based films, ,, KNN-based films, − and BNT-based films. − (d) Piezoelectricity and T c of BFO-based films and ceramics. ,− …”

Collaborative Optimization of Curie Temperature and Piezoelectricity in Ternary BiFeO₃–BiScO₃–PbTiO₃

Modification of domain construction in PNN-PIN-PT piezoelectric ceramics for high electromechanical performance using defect engineering

Improved energy storage capacity of high-entropy ferroelectric perovskite ceramic via flash sintering