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Alkali-metal-adsorbed g-GaN monolayer: ultralow work functions and optical properties

Nanoscale Research Letters (2018) 13
DOI: 10.1186/s11671-018-2625-z
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Abstract

The electronic and optical properties of alkali-metal-adsorbed graphene-like gallium nitride (g-GaN) have been investigated using density functional theory. The results denote that alkali-metal-adsorbed g-GaN systems are stable compounds, with the most stable adsorption site being the center of the hexagonal ring. In addition, because of charge transfer from the alkali-metal atom to the host, the g-GaN layer shows clear n-type doping behavior. The adsorption of alkali metal atoms on g-GaN occurs via chemisorption. More importantly, the work function of g-GaN is substantially reduced following the adsorption of alkali-metal atoms. Specifically, the Cs-adsorbed g-GaN system shows an ultralow work function of 0.84 eV, which has great potential application in field-emission devices. In addition, the alkali-metal adsorption can lead to an increase in the static dielectric constant and extend the absorption spectrum of g-GaN.

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APA

Cui, Z., Wang, X., Li, E., Ding, Y., Sun, C., & Sun, M. (2018). Alkali-metal-adsorbed g-GaN monolayer: ultralow work functions and optical properties. Nanoscale Research Letters, 13. https://doi.org/10.1186/s11671-018-2625-z

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