Henry Geerlings scite author profile

Piezoelectric materials are used in numerous applications requiring a coupling between electrical fields and mechanical strain. Despite the technological importance of this class of materials, for only a small fraction of all inorganic compounds which display compatible crystallographic symmetry, has piezoelectricity been characterized experimentally or computationally. In this work we employ first-principles calculations based on density functional perturbation theory to compute the piezoelectric tensors for nearly a thousand compounds, thereby increasing the available data for this property by more than an order of magnitude. The results are compared to select experimental data to establish the accuracy of the calculated properties. The details of the calculations are also presented, along with a description of the format of the database developed to make these computational results publicly available. In addition, the ways in which the database can be accessed and applied in materials development efforts are described.

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Machine Learning to Optimize Additive Manufacturing Parameters for Laser Powder Bed Fusion of Inconel 718

Kappes

Moorthy

Drake

et al. 2018

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Piezoelectric Tensor Data

Jong¹,

Chen²,

Geerlings³

et al. 2018

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Strain-induced variant selection in heterogeneous nucleation of α -Ti at screw dislocations in β -Ti

Poschmann

Lin

Geerlings

et al. 2018

Phys. Rev. Materials

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Maximizing Scrap Recycling by Designing Cu Tolerant Steel Compositions

Geerlings

Promel

Sridhar

et al. 2022

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Henry Geerlings

A database to enable discovery and design of piezoelectric materials

Machine Learning to Optimize Additive Manufacturing Parameters for Laser Powder Bed Fusion of Inconel 718

Piezoelectric Tensor Data

Strain-induced variant selection in heterogeneous nucleation of α -Ti at screw dislocations in β -Ti

Maximizing Scrap Recycling by Designing Cu Tolerant Steel Compositions

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