Hydrogenation-induced atomic stripes on the 2H- MoS2 surface

Sang Wook Han; Won Seok Yun; J. D. Lee; Y. H. Hwang; J. Baik; H. J. Shin; Wang G. Lee; Young S. Park; Kwang S. Kim

doi:10.1103/PhysRevB.92.241303

Hydrogenation-induced atomic stripes on the 2H- MoS2 surface

Sang Wook Han, Won Seok Yun, J. D. Lee, Y. H. Hwang, J. Baik, H. J. Shin, Wang G. Lee, Young S. Park, Kwang S. Kim

Department of Physics and Chemistry

Research output: Contribution to journal › Article › peer-review

33 Scopus citations

Abstract

We report that the hydrogenation of a single crystal 2H-MoS2 induces a novel-intermediate phase between 2H and 1T phases on its surface, i.e., the large-area, uniform, robust, and surface array of atomic stripes through the intralayer atomic-plane gliding. The total energy calculations confirm that the hydrogenation-induced atomic stripes are energetically most stable on the MoS2 surface between the semiconducting 2H and metallic 1T phase. Furthermore, the electronic states associated with the hydrogen ions, which is bonded to sulfur anions on both sides of the MoS2 surface layer, appear in the vicinity of the Fermi level (EF) and reduces the band gap. This is promising in developing the monolayer-based field-effect transistor or vanishing the Schottky barrier for practical applications.

Original language	English
Article number	241303
Journal	Physical Review B - Condensed Matter and Materials Physics
Volume	92
Issue number	24
DOIs	https://doi.org/10.1103/PhysRevB.92.241303
State	Published - 22 Dec 2015

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©2015 American Physical Society.

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title = "Hydrogenation-induced atomic stripes on the 2H- MoS2 surface",

abstract = "We report that the hydrogenation of a single crystal 2H-MoS2 induces a novel-intermediate phase between 2H and 1T phases on its surface, i.e., the large-area, uniform, robust, and surface array of atomic stripes through the intralayer atomic-plane gliding. The total energy calculations confirm that the hydrogenation-induced atomic stripes are energetically most stable on the MoS2 surface between the semiconducting 2H and metallic 1T phase. Furthermore, the electronic states associated with the hydrogen ions, which is bonded to sulfur anions on both sides of the MoS2 surface layer, appear in the vicinity of the Fermi level (EF) and reduces the band gap. This is promising in developing the monolayer-based field-effect transistor or vanishing the Schottky barrier for practical applications.",

author = "Han, {Sang Wook} and Yun, {Won Seok} and Lee, {J. D.} and Hwang, {Y. H.} and J. Baik and Shin, {H. J.} and Lee, {Wang G.} and Park, {Young S.} and Kim, {Kwang S.}",

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doi = "10.1103/PhysRevB.92.241303",

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T1 - Hydrogenation-induced atomic stripes on the 2H- MoS2 surface

AU - Han, Sang Wook

AU - Yun, Won Seok

AU - Lee, J. D.

AU - Hwang, Y. H.

AU - Baik, J.

AU - Shin, H. J.

AU - Lee, Wang G.

AU - Park, Young S.

AU - Kim, Kwang S.

PY - 2015/12/22

Y1 - 2015/12/22

N2 - We report that the hydrogenation of a single crystal 2H-MoS2 induces a novel-intermediate phase between 2H and 1T phases on its surface, i.e., the large-area, uniform, robust, and surface array of atomic stripes through the intralayer atomic-plane gliding. The total energy calculations confirm that the hydrogenation-induced atomic stripes are energetically most stable on the MoS2 surface between the semiconducting 2H and metallic 1T phase. Furthermore, the electronic states associated with the hydrogen ions, which is bonded to sulfur anions on both sides of the MoS2 surface layer, appear in the vicinity of the Fermi level (EF) and reduces the band gap. This is promising in developing the monolayer-based field-effect transistor or vanishing the Schottky barrier for practical applications.

AB - We report that the hydrogenation of a single crystal 2H-MoS2 induces a novel-intermediate phase between 2H and 1T phases on its surface, i.e., the large-area, uniform, robust, and surface array of atomic stripes through the intralayer atomic-plane gliding. The total energy calculations confirm that the hydrogenation-induced atomic stripes are energetically most stable on the MoS2 surface between the semiconducting 2H and metallic 1T phase. Furthermore, the electronic states associated with the hydrogen ions, which is bonded to sulfur anions on both sides of the MoS2 surface layer, appear in the vicinity of the Fermi level (EF) and reduces the band gap. This is promising in developing the monolayer-based field-effect transistor or vanishing the Schottky barrier for practical applications.

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DO - 10.1103/PhysRevB.92.241303

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Hydrogenation-induced atomic stripes on the 2H- MoS2 surface

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