Computational modeling of grain boundary electrostatic effect in polycrystalline SrTiO<sub>3</sub> thin film

This paper presents recent advances in our understanding of how structure (at all scale levels) influences and in many cases controls selected properties and performance of heterogeneous functional materials (HeteroFoaMs). We begin with mesomorphology and surface/volume discussions, and conclude with methods and concepts that start at the atomic level. Special attention is given not only to equilibrium processes but also to nonequilibrium behavior that controls, for example, the confinement of nuclear waste products. Surface to volume transitions and other principles are identified. The paper is written in outline form, with the purpose of identifying principles for further study. The significance of the findings is illustrated with discussions of applications to composite structures, nuclear fuel storage materials, functional materials used in electronics, oxide thin films, and batteries.

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“…A detailed discussion of the problem and model has been presented by Cao et al in a recent publication. 13 ∂c i (r, t…”

Section: Nonlinear Ion Diffusion In Polycrystalline Dielectric Oxide ...mentioning

confidence: 99%

Morphology Drivers for Irreversible Species Diffusion and Transport in HeteroFoaMs

Reifsnider

Cao

Raihan

et al. 2019

J. Electrochem. Soc.

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Electrical percolation and infrared emissivity of pressureless sintered SiC-MoSi2 composites tailored by sintering temperature

Zheng

Chen

Zhang

et al. 2019

Journal of the European Ceramic Society

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Influence of space charge on the conductivity of nanocrystalline SrTiO3

Bowes

Baker

et al. 2020

Journal of Applied Physics

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A grand canonical multiscale space-charge model has been developed to study and predict the electrical properties of polycrystalline perovskites with complex defect chemistries. This model combines accurate data from hybrid exchange-correlation functional density functional theory calculations (defect formation energies, resultant grand canonical calculations of defect concentrations, and ionization states) with finite-element simulation of the electric field and its coupling to defect redistribution and reionization throughout the grain. This model was used to simulate the evolution of the oxygen partial pressure-dependent conductivity of polycrystalline acceptor-doped strontium titanate as the grain size decreases, and the results were compared to previous experiments. These results demonstrate that as the grain size is reduced from the microscale to nanoscale, the experimentally observed disappearance of ionic conductivity and forward shift of the oxygen partial pressure of the n–p crossover are successfully reproduced and explained by the model. Mechanistically, the changes to conductivity stem from the charge transfer from the grain boundary core into the grain interior, forming a space-charge layer near the grain boundary core that perturbs the local defect chemistry. The impact of the grain size on the electrical conductivity and the underlying defect chemistry across the grain are discussed. In addition to the findings herein, the model itself enables exploration of the electrical response of polycrystalline semiconductor systems with complex defect chemistries, which is critical to the design of future electronic components.

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Computational modeling of grain boundary electrostatic effect in polycrystalline SrTiO₃ thin film

Cited by 3 publications

References 62 publications

Morphology Drivers for Irreversible Species Diffusion and Transport in HeteroFoaMs

Morphology Drivers for Irreversible Species Diffusion and Transport in HeteroFoaMs

Electrical percolation and infrared emissivity of pressureless sintered SiC-MoSi2 composites tailored by sintering temperature

Influence of space charge on the conductivity of nanocrystalline SrTiO3

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Computational modeling of grain boundary electrostatic effect in polycrystalline SrTiO3 thin film

Cited by 3 publications

References 62 publications

Morphology Drivers for Irreversible Species Diffusion and Transport in HeteroFoaMs

Morphology Drivers for Irreversible Species Diffusion and Transport in HeteroFoaMs

Electrical percolation and infrared emissivity of pressureless sintered SiC-MoSi2 composites tailored by sintering temperature

Influence of space charge on the conductivity of nanocrystalline SrTiO3

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Product

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Computational modeling of grain boundary electrostatic effect in polycrystalline SrTiO₃ thin film