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Ferromagnetism01:31

Ferromagnetism

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Materials like iron, nickel, and cobalt consist of magnetic domains, within which the magnetic dipoles are arranged parallel to each other. The magnetic dipoles are rigidly aligned in the same direction within a domain by quantum mechanical coupling among the atoms. This coupling is so strong that even thermal agitation at room temperature cannot break it. The result is that each domain has a net dipole moment. However, some materials have weaker coupling, and are ferromagnetic at lower...
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Related Experiment Video

Updated: Apr 2, 2026

Chemical Synthesis of Porous Barium Titanate Thin Film and Thermal Stabilization of Ferroelectric Phase by Porosity-Induced Strain
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Ultrahigh Polarization-Temperature-Stability 0.95PZ-0.05BMN Ferroelectrics for Energy Conversion Application.

Hao Hong1,2, Meng Xie1, Tengfei Hu1

  • 1State Key Laboratory of High Performance Ceramics, Shanghai Institute of Ceramics,Chinese Academy of Sciences, 1295 Dingxi Road, Shanghai 200050, People's Republic of China.

ACS Applied Materials & Interfaces
|April 1, 2026
PubMed
Summary
This summary is machine-generated.

This study introduces a novel ferroelectric ceramic, 0.95PbZrO3-0.05Ba(Mg1/3Nb2/3)O3, offering high remnant polarization and exceptional temperature stability for energy conversion applications.

Keywords:
PbZrO3-based ferroelectric ceramicsoxygen octahedron tiltpolarization temperature stabilitypulsed powerremnant polarization

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Area of Science:

  • Materials Science
  • Solid State Physics
  • Ceramics Engineering

Background:

  • Ferroelectric materials are crucial for high-pulsed power applications.
  • Poor polarization temperature stability limits their use in harsh environments.

Purpose of the Study:

  • To develop a ferroelectric ceramic with high remnant polarization and excellent temperature stability.
  • To understand the mechanisms behind this stability for energy conversion applications.

Main Methods:

  • Synthesis of 0.95PbZrO3-0.05Ba(Mg1/3Nb2/3)O3 ferroelectric ceramic.
  • Characterization of polarization, temperature stability, and structural properties.
  • In-situ structural analysis under varying temperatures and pressures.

Main Results:

  • Achieved high remnant polarization (~35.3 μC/cm²) and outstanding stability (<5.1% change from 30°C to 110°C).
  • Identified stable single rhombohedral phase and ordered lattice structure as key to stability.
  • Demonstrated pressure-driven phase transition behaviors for practical applications.

Conclusions:

  • The developed ferroelectric ceramic offers a promising solution for energy harvesting and conversion.
  • The findings provide a design strategy for future high-stability ferroelectric materials.