Login / Signup

Strain Engineering in Electrochemical Activity and Stability of BiFeO3 Perovskites.

Chao-Jie MaNa LiLi-Li ChenHaosen ChenWei-Li Song
Published in: The journal of physical chemistry letters (2021)
Strain engineering is widely employed to manipulate the intrinsic relationship of activity and the crystal structure, while the mechanism and rational strategy toward high-performance devices are still under investigation. Here straining engineering is utilized to manipulate a series of a typical perovskite structures via introducing different types of heteroions (Bi1-xMxFeO3, M = Ca2+ or Y3+ ion). The space group R3c in BiFeO3 perovskites is found to be maintained with substituting a certain amount of heteroions at Bi3+ sites (<5%), while it would shift into either space groups P4mm (with Ca2+ substitute) or Pnma (with Y3+ substitute) beyond some critical doping amounts (>5%). Such a transformation is linked with the mismatched crystal strain induced by the heteroions substituted at Bi3+ sites, while the activity, stability, and energy storage capability of Bi1-xMxFeO3 have been essentially varied. The results offer a strategy for manipulating stability and activity of perovskites in electrochemical energy conversion and storage.
Keyphrases
  • crystal structure
  • gold nanoparticles
  • ionic liquid
  • solar cells
  • solid phase extraction