Electron Transport Properties of Two-Dimensional Monolayer Films from Au-P-Au to Au-Si-Au Molecular Junctions

Dou Dou Sun; Wen Yong Su; Feng Wang; Wan Xiang Feng; Cheng Lin Heng

doi:10.1088/0256-307X/35/1/017201

Electron Transport Properties of Two-Dimensional Monolayer Films from Au-P-Au to Au-Si-Au Molecular Junctions

Dou Dou Sun^*, Wen Yong Su, Feng Wang, Wan Xiang Feng, Cheng Lin Heng

^*Corresponding author for this work

School of Physics

Beijing Institute of Technology

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

1 Citation (Scopus)

Abstract

We investigate the electronic-transport properties of two-dimensional monolayer films from Au-P-Au molecular junction to Au-Si-Au molecular junction using elastic scattering Greens function theory. In the process of replacing the P atoms with Si atoms every other line from the middle of monolayer blue phosphorus molecular structure, the substitution of Si atoms changes the properties of Au-P-Au molecular junction significantly. Interestingly, the current value has a symmetric change as a parabolic curve with the peak appearing in Au-Si1P₁-Au molecular junction, which provides the most stable current of 15.00 nA in a wide voltage range of 0.702.70 V. Moreover, the currentvoltage characteristics of the structures indicate that the steps tend to disappear revealing the property similar to metal when the Si atoms dominate the molecular junction.

Original language	English
Article number	017201
Journal	Chinese Physics Letters
Volume	35
Issue number	1
DOIs	https://doi.org/10.1088/0256-307X/35/1/017201
Publication status	Published - Dec 2017

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10.1088/0256-307X/35/1/017201

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title = "Electron Transport Properties of Two-Dimensional Monolayer Films from Au-P-Au to Au-Si-Au Molecular Junctions",

abstract = "We investigate the electronic-transport properties of two-dimensional monolayer films from Au-P-Au molecular junction to Au-Si-Au molecular junction using elastic scattering Greens function theory. In the process of replacing the P atoms with Si atoms every other line from the middle of monolayer blue phosphorus molecular structure, the substitution of Si atoms changes the properties of Au-P-Au molecular junction significantly. Interestingly, the current value has a symmetric change as a parabolic curve with the peak appearing in Au-Si1P1-Au molecular junction, which provides the most stable current of 15.00 nA in a wide voltage range of 0.702.70 V. Moreover, the currentvoltage characteristics of the structures indicate that the steps tend to disappear revealing the property similar to metal when the Si atoms dominate the molecular junction.",

author = "Sun, {Dou Dou} and Su, {Wen Yong} and Feng Wang and Feng, {Wan Xiang} and Heng, {Cheng Lin}",

note = "Publisher Copyright: {\textcopyright} 2018 Chinese Physical Society and IOP Publishing Ltd.",

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T1 - Electron Transport Properties of Two-Dimensional Monolayer Films from Au-P-Au to Au-Si-Au Molecular Junctions

AU - Sun, Dou Dou

AU - Su, Wen Yong

AU - Wang, Feng

AU - Feng, Wan Xiang

AU - Heng, Cheng Lin

PY - 2017/12

Y1 - 2017/12

N2 - We investigate the electronic-transport properties of two-dimensional monolayer films from Au-P-Au molecular junction to Au-Si-Au molecular junction using elastic scattering Greens function theory. In the process of replacing the P atoms with Si atoms every other line from the middle of monolayer blue phosphorus molecular structure, the substitution of Si atoms changes the properties of Au-P-Au molecular junction significantly. Interestingly, the current value has a symmetric change as a parabolic curve with the peak appearing in Au-Si1P1-Au molecular junction, which provides the most stable current of 15.00 nA in a wide voltage range of 0.702.70 V. Moreover, the currentvoltage characteristics of the structures indicate that the steps tend to disappear revealing the property similar to metal when the Si atoms dominate the molecular junction.

AB - We investigate the electronic-transport properties of two-dimensional monolayer films from Au-P-Au molecular junction to Au-Si-Au molecular junction using elastic scattering Greens function theory. In the process of replacing the P atoms with Si atoms every other line from the middle of monolayer blue phosphorus molecular structure, the substitution of Si atoms changes the properties of Au-P-Au molecular junction significantly. Interestingly, the current value has a symmetric change as a parabolic curve with the peak appearing in Au-Si1P1-Au molecular junction, which provides the most stable current of 15.00 nA in a wide voltage range of 0.702.70 V. Moreover, the currentvoltage characteristics of the structures indicate that the steps tend to disappear revealing the property similar to metal when the Si atoms dominate the molecular junction.

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DO - 10.1088/0256-307X/35/1/017201

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ER -

Electron Transport Properties of Two-Dimensional Monolayer Films from Au-P-Au to Au-Si-Au Molecular Junctions

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