Effective chemical potential for non-equilibrium systems and its application to molecular beam epitaxy of Bi2Se3

Na Wang; Damien West; Wenhui Duan; S. B. Zhang

doi:10.1039/C8NA00136G

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Effective chemical potential for non-equilibrium systems and its application to molecular beam epitaxy of Bi₂Se₃†

Na Wang,

^abc Damien West,^c Wenhui Duan

^a and S. B. Zhang*^cd

Author affiliations

* Corresponding authors

^a Department of Physics, Tsinghua University, Beijing 100084, China

^b Department of Physical Chemistry, University of Science and Technology Beijing, Beijing 100083, China

^c Department of Physics, Applied Physics & Astronomy, Rensselaer Polytechnic Institute, Troy, NY 12180, USA
E-mail: zhangs9@rpi.edu

^d Beijing Computational Science Research Center, Beijing 100193, China

Abstract

First-principles studies often rely on the assumption of equilibrium, which can be a poor approximation, e.g., for growth. Here, an effective chemical potential ( [small mu, Greek, macron] ) method for non-equilibrium systems is developed. A salient feature of the theory is that it maintains the equilibrium limits as the correct limit. In application to molecular beam epitaxy, rate equations are solved for the concentrations of small clusters, which serve as feedstock for growth. We find that [small mu, Greek, macron] is determined by the most probable, rather than by the lowest-energy, cluster. In the case of Bi₂Se₃, is found to be highly supersaturated, leading to a high nucleus concentration in agreement with experiment.

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Article information

DOI: https://doi.org/10.1039/C8NA00136G
Article type: Communication
Submitted: 07 Aug 2018
Accepted: 29 Sep 2018
First published: 10 Oct 2018
This article is Open Access

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Nanoscale Adv., 2019,1, 470-475

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Effective chemical potential for non-equilibrium systems and its application to molecular beam epitaxy of Bi₂Se₃

N. Wang, D. West, W. Duan and S. B. Zhang, Nanoscale Adv., 2019, 1, 470 DOI: 10.1039/C8NA00136G

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