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Strain Characterization in Two-Dimensional Crystals

Shizhe Feng, Zhiping Xu

2021Materials17 citationsDOIOpen Access PDF

Abstract

Two-dimensional (2D) crystals provides a material platform to explore the physics and chemistry at the single-atom scale, where surface characterization techniques can be applied straightforwardly. Recently there have been emerging interests in engineering materials through structural deformation or transformation. The strain field offers crucial information of lattice distortion and phase transformation in the native state or under external perturbation. Example problems with significance in science and engineering include the role of defects and dislocations in modulating material behaviors, and the process of fracture, where remarkable strain is built up in a local region, leading to the breakdown of materials. Strain is well defined in the continuum limit to measure the deformation, which can be alternatively calculated from the arrangement of atoms in discrete lattices through methods such as geometrical phase analysis from transmission electron imaging, bond distortion or virial stress from atomic structures obtained from molecular simulations. In this paper, we assess the accuracy of these methods in quantifying the strain field in 2D crystals through a number of examples, with a focus on their localized features at material imperfections. The sources of errors are discussed, providing a reference for reliable strain mapping.

Topics & Concepts

Atomic unitsCharacterization (materials science)Materials scienceLattice (music)Strain engineeringDeformation (meteorology)Distortion (music)Statistical physicsCrystallographyNanotechnologyCondensed matter physicsPhysicsPhase transitionChemistryQuantum mechanicsComposite materialCMOSOptoelectronicsAcousticsAmplifierElectronic and Structural Properties of OxidesSurface and Thin Film PhenomenaMachine Learning in Materials Science
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