Ferroelectric, Ferroelastic and Multiferroic Domain Walls: a New Horizon in Nanoscale Functional Materials
Lead Research Organisation:
University of Cambridge
Department Name: Earth Sciences
Abstract
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Organisations
Publications
Aktas O
(2021)
Piezoelectricity in nominally centrosymmetric phases
in Physical Review Research
Aktas O
(2022)
Probing the dynamic response of ferroelectric and ferroelastic materials by simultaneous detection of elastic and piezoelectric properties
in Journal of Alloys and Compounds
Aktas O
(2018)
Polarity of modulated Na0.5Bi0.5TiO3 and its slow structural relaxation
in Applied Physics Letters
Aktas O
(2018)
Macroscopic symmetry breaking and piezoelectricity in relaxor ferroelectric lead magnesium niobate
in Applied Physics Letters
Aktas O
(2021)
Piezoelectricity in nominally centrosymmetric phases
Barrett N
(2018)
Evidence for a surface anomaly during the cubic-tetragonal phase transition in BaTiO3(001)
in Applied Physics Letters
Baró J
(2018)
Experimental Evidence of Accelerated Seismic Release without Critical Failure in Acoustic Emissions of Compressed Nanoporous Materials.
in Physical review letters
Beirau T
(2019)
Nano-indentation and avalanches in compressed porous SiO2
in Applied Physics Letters
Beirau T
(2019)
Avalanches during recrystallization in radiation-damaged pyrochlore and allanite: Statistical similarity to phase transitions in functional materials
in Applied Physics Letters
Beirau T
(2018)
Locally preserved a ? ß phase transition in natural radiation-damaged titanite (CaTiSiO 5 ): evidence from laser-induced photoluminescence and dielectric measurements
in Journal of Physics: Condensed Matter
Bousquet E
(2020)
First-principles characterization of single-electron polaron in WO 3
in Physical Review Research
Bousquet E
(2020)
First-principles characterization of single-electron polaron in WO3
Carpenter M
(2021)
Strain relaxation dynamics of multiferroic orthorhombic manganites.
Carpenter M
(2020)
Strain relaxation dynamics of multiferroic orthorhombic manganites.
Carpenter M
(2022)
Static and dynamic strain relaxation associated with the paraelectric-antiferroelectric phase transition in PbZrO3
in Journal of Alloys and Compounds
Carpenter MA
(2021)
Strain relaxation dynamics of multiferroic orthorhombic manganites.
in Journal of physics. Condensed matter : an Institute of Physics journal
Casals B
(2021)
The duration-energy-size enigma for acoustic emission
Casals B
(2019)
Electric-field-induced avalanches and glassiness of mobile ferroelastic twin domains in cryogenic SrTi O 3
in Physical Review Research
Casals B
(2020)
Avalanches from charged domain wall motion in BaTiO 3 during ferroelectric switching
in APL Materials
Casals B
(2021)
Avalanche criticality during ferroelectric/ferroelastic switching.
in Nature communications
Casals B
(2021)
Energy exponents of avalanches and Hausdorff dimensions of collapse patterns.
in Physical review. E
Casals B
(2021)
The duration-energy-size enigma for acoustic emission.
in Scientific reports
Casals B
(2021)
The duration-energy-size enigma for acoustic emission.
Chen Y
(2020)
Avalanches and mixing behavior of porous 316L stainless steel under tension
in Applied Physics Letters
Chen Y
(2024)
Avalanche dynamics of dislocations and cracks under tension in additively manufactured copper
in Applied Physics Letters
Chen Y
(2019)
Acoustic Emission from Porous Collapse and Moving Dislocations in Granular Mg-Ho Alloys under Compression and Tension.
in Scientific reports
Chen Y
(2020)
Fine structures of acoustic emission spectra: How to separate dislocation movements and entanglements in 316L stainless steel
in Applied Physics Letters
Chen Y
(2021)
Real-time monitoring dislocations, martensitic transformations and detwinning in stainless steel: Statistical analysis and machine learning
in Journal of Materials Science & Technology
Chen Y
(2022)
Multiple Avalanche Processes in Acoustic Emission Spectroscopy: Multibranching of the Energy-Amplitude Scaling
in physica status solidi (b)
Chen Y
(2021)
Multiple Avalanche Processes in Acoustic Emission Spectroscopy: Multibranching of the Energy-Amplitude Scaling
in physica status solidi (b)
Chen Y
(2022)
Acoustic emission spectra and statistics of dislocation movements in Fe40Mn40Co10Cr10 high entropy alloys
in Journal of Applied Physics
Chen Y
(2023)
Multibranches of acoustic emission as identifier for deformation mechanisms in additively manufactured 316L stainless steel
in Additive Manufacturing
Cochard C
(2021)
Influence of charged walls and defects on DC resistivity and dielectric relaxations in Cu-Cl boracite
in Applied Physics Letters
Cordero F
(2023)
Elastic precursor effects during Ba 1 - x Sr x TiO 3 ferroelastic phase transitions
in Physical Review Research
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 |