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Ferroelectric, Ferroelastic and Multiferroic Domain Walls: a New Horizon in Nanoscale Functional Materials

Lead Research Organisation: University of Cambridge
Department Name: Earth Sciences

Abstract

Abstracts are not currently available in GtR for all funded research. This is normally because the abstract was not required at the time of proposal submission, but may be because it included sensitive information such as personal details.

Publications

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Carpenter MA (2021) Strain relaxation dynamics of multiferroic orthorhombic manganites. in Journal of physics. Condensed matter : an Institute of Physics journal

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Zhang L (2020) Coupling between phase transitions and glassy magnetic behaviour in Heusler alloy Ni50Mn34In8Ga8. in Journal of physics. Condensed matter : an Institute of Physics journal

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Beirau T (2018) Locally preserved a ? ß phase transition in natural radiation-damaged titanite (CaTiSiO5): evidence from laser-induced photoluminescence and dielectric measurements. in Journal of physics. Condensed matter : an Institute of Physics journal

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Fernandez-Posada C (2020) Order-disorder, ferroelasticity and mobility of domain walls in multiferroic Cu-Cl boracite in Journal of Physics: Condensed Matter

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Féger L (2023) Dense and single-phase KTaO3 ceramics obtained by spark plasma sintering in Journal of the European Ceramic Society

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Wang L (2021) Cracking of human teeth: An avalanche and acoustic emission study. in Journal of the mechanical behavior of biomedical materials

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Lu G (2023) Influence of kinks on the interaction energy between ferroelastic domain walls in membranes and thin films in Microstructures

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Salje E (2021) Ferroelastic Twinning in Minerals: A Source of Trace Elements, Conductivity, and Unexpected Piezoelectricity in Minerals

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Yang Y (2021) Twisting of a Pristine a-Fe Nanowire: From Wild Dislocation Avalanches to Mild Local Amorphization. in Nanomaterials (Basel, Switzerland)

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Weber MC (2022) Emerging spin-phonon coupling through cross-talk of two magnetic sublattices. in Nature communications

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Casals B (2021) Avalanche criticality during ferroelectric/ferroelastic switching. in Nature communications

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Frenkel Y (2017) Imaging and tuning polarity at SrTiO3 domain walls. in Nature materials

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Lu G (2020) Current vortices and magnetic fields driven by moving polar twin boundaries in ferroelastic materials in npj Computational Materials

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Salje E (2023) K.A. Müller and research on ferroic and polaronic materials in Physica C: Superconductivity and its Applications

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Chen Y (2021) Multiple Avalanche Processes in Acoustic Emission Spectroscopy: Multibranching of the Energy-Amplitude Scaling in physica status solidi (b)

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Chen Y (2022) Multiple Avalanche Processes in Acoustic Emission Spectroscopy: Multibranching of the Energy-Amplitude Scaling in physica status solidi (b)

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Salje EKH (2023) Dynamic domain boundaries: chemical dopants carried by moving twin walls. in Physical chemistry chemical physics : PCCP

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Eckstein J (2024) Domain wall dynamics in tungsten trioxide: Evidence for polar domain walls in Physical Review B

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Yang Y (2021) Mild fluctuations in ferroelastic domain switching in Physical Review B

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Yokota H (2020) Domain wall generated polarity in ferroelastics: Results from resonance piezoelectric spectroscopy, piezoelectric force microscopy, and optical second harmonic generation measurements in La Al O 3 with twin and tweed microstructures in Physical Review B

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Romero F (2019) Scale-invariant avalanche dynamics in the temperature-driven martensitic transition of a Cu-Al-Be single crystal in Physical Review B

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Zhang L (2017) Influence of local strain heterogeneity on high piezoelectricity in 0.5 Ba ( Z r 0.2 T i 0.8 ) O 3 - 0.5 ( B a 0.7 C a 0.3 ) Ti O 3 ceramics in Physical Review B

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Yang Y (2024) { 10 1 ¯ 4 } twin boundary in calcite: Structure and physical properties in Physical Review B

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Howieson G (2021) Structural phase transitions in the geometric ferroelectric LaTa O 4 in Physical Review B

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Lu G (2022) Wall-wall and kink-kink interactions in ferroelastic materials in Physical Review B

 
Description We have identified unique combinations of microstructures in crystals which undergo phase transitions - with a focus on vortices and twin walls in materials including BaTiO3, ferroelectric tungsten bronzes, multiferroic orthorhombic perovskites, pnictide superconductors. This work has expanded greatly in terms of the range of domain wall materials that we have investigated successfully, and in terms of our successful collaborations with other members of the network group.

More specifically, domain wall switching and the internal wall structure has been shown to divide into two categories: wild and mild. Wild switching results in highly correlated movements with power law statistics. This means that this switching is scale invariant in time and space and hence allows for high frequency applications in mobile phones etc. Mild switching is thermally activated and dominates in the deformation of wires, bio-mineralisation and some medical applications. Here the choice of the optimal frequency in key and applications rely not only on the amplitude of the switching process but also on the time span and hence the frequency of the pertubation.

Ferroelectric switching, such as in BaTiO3, was shown to be history dependent and the nature of the morphotropic boundary in the commonly used material PZT was identified. It consists of highly correlated clusters of ferroelectric domains which act as units rather than splitting into individual domain walls. The same effect was found in cryogenic SrTiO3 near the quantum critical point where all domain movements become fully coherent. These effects dominate the mechanical properties (like the elasticity) of the material and generate piezoelectricity in nominally cubic materials.

In theory, we have clarified wall-wall interactions in the bulk and in thin films, the interaction between domain boundaries with surfaces and the role of percolation in domain wall movements. We predicted weak magnetic signals when moving ferroelastic wall even without any magnetic atoms in the bulk. We identified the mixing properties of movements of different origin (like twin walls, dislocations, atomic defect displacements etc) during acoustic emission experiment which enlarges the way such techniques can now be used.
Exploitation Route We are expecting that the scientific progress we have made with respect to understanding the structure, dynamics and properties of domain walls will be of significant assistance to the electronics industry involved in the development of new nanoscale devices. Our work has been on fundamental aspects of the ways in which domain walls arising at phase transitions evolve, interact with each other and interact with strain fields. It forms the basis for ongoing research focussed more specifically on "Materials for neuromorphic circuits", a Marie-Curie network funded by the EU.
Sectors Electronics
 
Title Local structure and order-disorder transitions in 'empty' ferroelectric tetragonal tungsten bronzes (dataset) 
Description  
Type Of Material Database/Collection of data 
Year Produced 2019 
Provided To Others? Yes  
URL https://research-portal.st-andrews.ac.uk/en/datasets/local-structure-and-order-disorder-transitions-...