Electrochemically manipulating BiFeO3 particles via Bi3+ ion extraction

Because multifunctional ceramics are widely used in the electronics, manipulating composition and structure of the electronic ceramics aim at improving the performance of the target material for appropriate applications. However, the composite materials with multiphases and multicomponents could be...

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Bibliographic Details
Published in:Journal of the American Ceramic Society 2021-07, Vol.104 (7), p.3354-3364
Main Authors: Ma, Chao‐Jie, Zhang, Kai‐Lun, Song, Wei‐Li, Wang, Da‐Wei, Li, Na, Xu, Baosheng, Chen, Haosen
Format: Article
Language:English
Subjects:
Bismuth ferrite
Ceramics
Composite materials
Composition
Design of experiments
electrochemical manipulation
Electromagnetic properties
electronic ceramics
Ion extraction
Magnetic properties
Morphology
multicomponent
Multiphase
Nanomaterials
Particulate composites
Perovskites
Titration
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Summary:Because multifunctional ceramics are widely used in the electronics, manipulating composition and structure of the electronic ceramics aim at improving the performance of the target material for appropriate applications. However, the composite materials with multiphases and multicomponents could be achieved by mixing the nanomaterials with various preparing methods or technologies, which generally require a bunch of experimental design to obtain the target products. For achieving the goals, a novel electrochemical approach for preparing functional ceramic materials is demonstrated via ion extraction from the A site of perovskite BiFeO3 (BFO) ceramic particles, and whereby a single‐phase perovskite BFO could be evolved into multiphase and multicrystalline homogeneous composites. With gradual changes in material particle size, composition, structure, and morphology upon electrochemical Bi3+ ion extraction, the magnetic and electromagnetic properties of the decomposed BFO along with the generated multiphase and multicrystalline composites would present pronounced evolutionary behaviors, compared with original BFO. Apparently, such titration method upon electrochemical ion extraction could be employed to manipulate the properties of the functional ceramics. The simple strategy of electrochemical manipulation BFO would be applied to certain materials with electrochemical activity to achieve the target performance. A single‐phase perovskite BFO could be evolved into multi‐phase and multi‐crystalline composites via electrochemical ion extraction. The properties of the decomposed BFO along with the generated multi‐phase and multi‐crystalline composites would present pronounced evolutionary behaviors.
ISSN:0002-7820
1551-2916
DOI:10.1111/jace.17726