A Shallow Acceptor of Phosphorous Doped in MoSe 2 Monolayer
Tuning the conductivity and other electronic properties by doping in ultrathin layers of transition‐metal dichalcogenides is of great scientific and practical interest. As with traditional semiconductors, controllable doping is essential for device applications of the materials. Here, hole doping in...
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| Veröffentlicht in: | Advanced electronic materials 2020-01, Vol.6 (1) |
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| creator | Xia, Yipu Zhang, Junqiu Yu, Zhoubin Jin, Yuanjun Tian, Hao Feng, Yue Li, Bin Ho, Wingkin Liu, Chang Xu, Hu Jin, Chuanhong Xie, Maohai |
| description | Tuning the conductivity and other electronic properties by doping in ultrathin layers of transition‐metal dichalcogenides is of great scientific and practical interest. As with traditional semiconductors, controllable doping is essential for device applications of the materials. Here, hole doping in epitaxial MoSe
2
by phosphorus (P) are reported, where substitutional P at the Se sites acts as a shallow acceptor. P substituting Se in MoSe
2
is identified by annular dark field scanning transmission electron microscopy, Auger electron spectroscopy, and X‐ray photoelectron spectroscopy. Scanning tunneling spectroscopy and ultraviolet photoemission spectroscopy reveal in‐gap defect states and Fermi‐level shifts, suggesting the hole doping effect of substitutional P. Combining with density functional theory calculation and partial charge analysis, the binding energies of impurity levels of group V elements in a MoSe
2
monolayer are elucidated, where the dopant energy level becomes shallower with increasing atomic mass. |
| doi_str_mv | 10.1002/aelm.201900830 |
| format | Article |
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2
by phosphorus (P) are reported, where substitutional P at the Se sites acts as a shallow acceptor. P substituting Se in MoSe
2
is identified by annular dark field scanning transmission electron microscopy, Auger electron spectroscopy, and X‐ray photoelectron spectroscopy. Scanning tunneling spectroscopy and ultraviolet photoemission spectroscopy reveal in‐gap defect states and Fermi‐level shifts, suggesting the hole doping effect of substitutional P. Combining with density functional theory calculation and partial charge analysis, the binding energies of impurity levels of group V elements in a MoSe
2
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2
by phosphorus (P) are reported, where substitutional P at the Se sites acts as a shallow acceptor. P substituting Se in MoSe
2
is identified by annular dark field scanning transmission electron microscopy, Auger electron spectroscopy, and X‐ray photoelectron spectroscopy. Scanning tunneling spectroscopy and ultraviolet photoemission spectroscopy reveal in‐gap defect states and Fermi‐level shifts, suggesting the hole doping effect of substitutional P. Combining with density functional theory calculation and partial charge analysis, the binding energies of impurity levels of group V elements in a MoSe
2
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2
by phosphorus (P) are reported, where substitutional P at the Se sites acts as a shallow acceptor. P substituting Se in MoSe
2
is identified by annular dark field scanning transmission electron microscopy, Auger electron spectroscopy, and X‐ray photoelectron spectroscopy. Scanning tunneling spectroscopy and ultraviolet photoemission spectroscopy reveal in‐gap defect states and Fermi‐level shifts, suggesting the hole doping effect of substitutional P. Combining with density functional theory calculation and partial charge analysis, the binding energies of impurity levels of group V elements in a MoSe
2
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| title | A Shallow Acceptor of Phosphorous Doped in MoSe 2 Monolayer |
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