Bai‐Xiang Xu scite author profile

Defects are essential to engineering the properties of functional materials ranging from semiconductors and superconductors to ferroics. Whereas point defects have been widely exploited, dislocations are commonly viewed as problematic for functional materials and not as a microstructural tool. We developed a method for mechanically imprinting dislocation networks that favorably skew the domain structure in bulk ferroelectrics and thereby tame the large switching polarization and make it available for functional harvesting. The resulting microstructure yields a strong mechanical restoring force to revert electric field–induced domain wall displacement on the macroscopic level and high pinning force on the local level. This induces a giant increase of the dielectric and electromechanical response at intermediate electric fields in barium titanate [electric field–dependent permittivity (ε33) ≈ 5800 and large-signal piezoelectric coefficient (d33*) ≈ 1890 picometers/volt]. Dislocation-based anisotropy delivers a different suite of tools with which to tailor functional materials.

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Domain evolution in ferroelectric materials: A continuum phase field model and finite element implementation

Schrade

Mueller

et al. 2007

Computer Methods in Applied Mechanics and Engineering

145

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A strategy of selective and dendrite-free lithium deposition for lithium batteries

et al. 2017

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Bai‐Xiang Xu

A review on modeling of electro-chemo-mechanics in lithium-ion batteries

Dynamic analysis of dielectric elastomer actuators

Control of polarization in bulk ferroelectrics by mechanical dislocation imprint

Domain evolution in ferroelectric materials: A continuum phase field model and finite element implementation

A strategy of selective and dendrite-free lithium deposition for lithium batteries

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