期刊
PHYSICAL REVIEW B
卷 104, 期 17, 页码 -出版社
AMER PHYSICAL SOC
DOI: 10.1103/PhysRevB.104.174107
关键词
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资金
- Westlake Education Foundation
- Westlake Multidisciplinary Research Initiative Center
- National Natural Science Foundation of China [52002335]
Researchers developed a deep neural network-based force field to simulate the thermodynamic properties and ferroelectric properties of monolayer In2Se3, reproducing the DFT kinetic pathways and paving the way for further research on the dynamics of ferroelectric α-In2Se3 and related systems.
The discovery of two-dimensional (2D) ferroelectrics with switchable out-of-plane polarization such as monolayer alpha-In2Se3 offers a new avenue for ultrathin high-density ferroelectric-based nanoelectronics such as ferroelectric field effect transistors and memristors. The functionality of ferroelectrics depends critically on the dynamics of polarization switching in response to an external electric/stress field. Unlike the switching dynamics in bulk ferroelectrics that have been extensively studied, the mechanisms and dynamics of polarization switching in 2D remain largely unexplored. Molecular dynamics (MD) using classical force fields is a reliable and efficient method for large-scale simulations of dynamical processes with atomic resolution. Here we developed a deep neural network-based force field of monolayer In2Se3 using a concurrent learning procedure that efficiently updates the first-principles-based training database. The model potential has accuracy comparable with density functional theory (DFT), capable of predicting a range of thermodynamic properties of In2Se3 polymorphs and lattice dynamics of ferroelectric In2Se3. Pertinent to the switching dynamics, the model potential also reproduces the DFT kinetic pathways of polarization reversal and 180 degrees domain wall motions. Moreover, isobaric-isothermal ensemble MD simulations predict a temperature-driven alpha -> beta phase transition at the single-layer limit, as revealed by both local atomic displacement and Steinhardt's bond orientational order parameter Q4. Our paper paves the way for further research on the dynamics of ferroelectric alpha-In2Se3 and related systems.
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