Abstract Ba (Ti 0.25 Zr 0.25 Hf 0.25 Sn 0.25) O 3 high-entropy ceramics were prepared by a
standard solid state reaction process, and the dielectric and ferroelectric characteristics were …

The multiferroic rare-earth-substituted BiFeO 3 has emerged as a promising candidate to
achieve ultralow-energy-dissipation logic or memory devices, but the fundamental details of …

An assortment of chromium-doped calcium-zinc ferrite specimens with the elemental
composition Ca 0.5 Zn 0.5 Fe 12-x Cr x O 19 (x= 0.0–2.0) are synthesized employing the sol …

In the present work, the strategy of multielements co‐substitution for BiFeO3 ceramics was
adopted to enhance the ferroelectricity and magnetoelectric coupling effect where the …

The effects of La/Ho co-substitution on multiferroic characteristics were investigated for
BiFeO 3 ceramics together with structure evolution. The symmetry in Bi 1− x (La 0.65 Ho …

In this study, multiple rare earth elements were introduced to modify the multiferroic
properties of BiFeO 3. The effects of co-substitution on the structural evolution and properties …

Abstract The 0–3 type (1-x)(0.75 BiFeO 3-0.25 BaTiO 3)/xBaFe 12 O 19 (BFO-BTO/BaM)
multiferroic composites were successfully prepared by a solid-state reaction sintering …

In the present study, SrTiO3 was selected to enhance the multiferroic characteristics of Bi0.
88Sm0. 12FeO3 (BSF) ceramics. With increasing SrTiO3 content, the principal phase of BSF …

The hexagonal rare earth ferrites h-RFeO3 (R= rare earth element) have been recognized
as promising candidates for a room-temperature multiferroic system, and the primary issue …

Ferroic materials with multiple order parameters hold promise for enhanced electrocaloric
effect (ECE), but the existence of some order parameters can be detrimental, such as …