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Progress in BiFeO3-based heterostructures: materials, properties and applications.

Li Yin1, Wenbo Mi

  • 1Tianjin Key Laboratory of Low Dimensional Materials Physics and Preparation Technology, School of Science, Tianjin University, Tianjin 300354, China. miwenbo@tju.edu.cn.

Nanoscale
|December 19, 2019
PubMed
Summary

Bismuth ferrite (BiFeO3)-based heterostructures offer exciting possibilities for data storage and optical applications due to their unique multiferroic properties. This review systematically explores their physical characteristics and diverse applications.

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Area of Science:

  • Materials Science
  • Condensed Matter Physics
  • Nanotechnology

Background:

  • Bismuth ferrite (BiFeO3)-based heterostructures are recognized for their room-temperature multiferroic properties.
  • These materials exhibit desirable band gaps and ultrahigh ferroelectric polarization, crucial for advanced functionalities.

Purpose of the Study:

  • To provide a comprehensive review of BiFeO3-based heterostructures.
  • To systematically analyze their optical, electric, magnetic, and valley properties and their interactions.
  • To discuss the underlying mechanisms and applications of these heterostructures.

Main Methods:

  • Literature review and systematic analysis of existing research on BiFeO3-based heterostructures.
  • Discussion of material morphologies and physical properties.
  • Exploration of underlying physical mechanisms like photovoltaic effect and resistance switching.

Main Results:

  • Detailed review of optical, electric, magnetic, and valley properties in BiFeO3 heterostructures.
  • Discussion on the influence of morphology on heterostructure properties.
  • Thorough analysis of physical phenomena including photovoltaic effects, electric field control of magnetism, resistance switching, and 2D electron gas characteristics.

Conclusions:

  • BiFeO3-based heterostructures possess significant potential for applications in data storage, visible light utilization, and synapse-like functions.
  • The review provides insights into material properties, mechanisms, and applications, guiding future research and device design.