Revisiting the energy barrier of black phosphorous and monochalcogenide monolayers
ORAL
Abstract
The energy barrier is the energy required to change the rectangular unit cell of black phosphorene or monochalcogenide monolayers onto a square unit cell. Here, three different DFT codes were employed to obtain these barriers. It is known that the energy barrier decreases with the increase of the average atomic number [1], but in calculations performed with van der Waals corrections, the barrier is higher than our previously reported values. Also, we found that the ionicity, which is related to the average atomic number [2], has a linear relation with the energy barrier.
References
1 M. Mehboudi, A. M. Dorio, W. Zhu, A. van der Zande, H. O. H. Churchill, A. A. Pacheco-Sanjuan, E. O. Harriss, P. Kumar, and S. Barraza-Lopez, Nano Lett. 16, 1704 (2016).
2 P B Littlewood, J. Phys. C: Solid State Phys. 13, 4855 (1980).
References
1 M. Mehboudi, A. M. Dorio, W. Zhu, A. van der Zande, H. O. H. Churchill, A. A. Pacheco-Sanjuan, E. O. Harriss, P. Kumar, and S. Barraza-Lopez, Nano Lett. 16, 1704 (2016).
2 P B Littlewood, J. Phys. C: Solid State Phys. 13, 4855 (1980).
*S.B.L. and T.P.K. acknowledge support from the U.S. DOE (Grant No. DE-SC0016139). Calculations were performed on Trestles at the Arkansas High Performance Computing Center, which is funded through multiple National Science Foundation grants and the Arkansas Economic Development Commission.
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Presenters
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Shiva Poudel
- Physics, Univ of Arkansas-Fayetteville