Structural and electrical transport studies in Bi-substituted Yttrium Chromite

“…Dielectric loss indicated that chromates display the characteristic of charge carrier to itinerary of oxygen vacancy with increasing temperature and the Bi content [256]. Moreover, the grain contribution dominated the conductivity in orthochromates [257]. An increase of grain size in Bi-doped samples largely decreases the conductivity.…”

“…An increase of grain size in Bi-doped samples largely decreases the conductivity. This was attributed to inherent Cr 3+ electronic configuration or charge-carrier hopping resulting from intrinsic defects of Cr 4+ in Bi-doped YCrO 3 [257].…”

A comprehensive review on the ferroelectric orthochromates: Synthesis, property, and application

“…Dielectric loss indicated that chromates display the characteristic of charge carrier to itinerary of oxygen vacancy with increasing temperature and the Bi content [256]. Moreover, the grain contribution dominated the conductivity in orthochromates [257]. An increase of grain size in Bi-doped samples largely decreases the conductivity.…”

“…An increase of grain size in Bi-doped samples largely decreases the conductivity. This was attributed to inherent Cr 3+ electronic configuration or charge-carrier hopping resulting from intrinsic defects of Cr 4+ in Bi-doped YCrO 3 [257].…”

A comprehensive review on the ferroelectric orthochromates: Synthesis, property, and application

Influence of Sm and Fe Co-doping on Structural and Electrical Features of Yttrium Chromite Nanoparticles

Effect of Ca substitution on structural and optical properties of multiferroic PrCrO3