Enhancing the Electrochemical Energy Storage Performance of Bismuth Ferrite Supercapacitor Electrodes via Simply Induced Anion Vacancies

Abstract: Increasing the content of anion vacancies may yield significant improvement in the overall electrochemical energy-storing performance of perovskite materials, where the vacancy sites act as highly favorable ion diffusion paths. However, a detailed study on energy storage mechanism at binary cation sites under the anion deficiency should be further explored in supercapacitor electrode materials. In this study, a simple hydrothermal method and hydrogen gas exposure processes were used to generate oxygen vacancie… Show more

“…Hence, when considering a current density of 1 A g À 1 , the Sc values of the BiFeO 3-X electrode (461.9 F g À 1 , 923.8 mF cm À 2 , and 145.3 mAh g À 1 ) were much great-er than those of BiFeO 3 (316.0 F g À 1 , 300.9 mF cm À 2 , and 88.9 mAh g À 1 ). [196] The study's overall summary is depicted in Figure 15. Kumar et al synthesized BiFe 1À x Cr x O 3 (0 � x � 10) via the sol-gel route.…”

Unlocking the Potential of Bismuth‐Based Materials in Supercapacitor Technology: A Comprehensive Review

“…Hence, when considering a current density of 1 A g À 1 , the Sc values of the BiFeO 3-X electrode (461.9 F g À 1 , 923.8 mF cm À 2 , and 145.3 mAh g À 1 ) were much great-er than those of BiFeO 3 (316.0 F g À 1 , 300.9 mF cm À 2 , and 88.9 mAh g À 1 ). [196] The study's overall summary is depicted in Figure 15. Kumar et al synthesized BiFe 1À x Cr x O 3 (0 � x � 10) via the sol-gel route.…”

Unlocking the Potential of Bismuth‐Based Materials in Supercapacitor Technology: A Comprehensive Review

Improved electrochemical properties of nanostructured Bi0.9Gd0.1FeO3 thin film as electrode material for supercapacitors