Hong-Yao Liu scite author profile

The exploration of new monolayer materials always attracts much attention due to the extraordinary properties and promising applications. Here we predict two monolayered aluminum triphosphides (AlP 3 ) with C2/m and P3m1 space groups with a tunable bandgap under strain as the new members of the 2D XP 3 family by using the first principles calculations. The stabilities of the predicted structures are confirmed with the phonon dispersion curves and molecular dynamics. Unlike the narrow bandgaps of the reported XP 3 monolayers, the larger bandgaps of 1.78 (HSE06) or 1.91 eV (G 0 W 0 ) for C2/m and 1.42 (HSE06) or 2.14 eV (G 0 W 0 ) for P3m1 AlP 3 monolayers are observed. The high mobility of 1.01 × 10 5 and 1.62 × 10 4 cm 2 V −1 s −1 are observed for the electron of P3m1 and the hole of C2/m. The optical absorptions of the AlP 3 monolayers, in particular, the one with C2/m, are obviously strong in the visible light range. These results imply that the monolayers are promising in the optoelectronic application. Unfortunately, the undesirable band edges make them not suitable for water splitting in spite of the strong optical absorption coefficient in the visible light range. However, an obvious effect of strain engineering is demonstrated for the monolayers. Under −2% and −3% biaxial strain, the band edges of P3m1 AlP 3 can straddle the redox potential of water and meet the requirement of photocatalytic water splitting. Therefore, the P3m1 AlP 3 monolayer can also be a promising candidate for the photocatalytic water splitting to produce hydrogen driven by the visible light.

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Research on risk assessment of natural disaster based on cloud fuzzy clustering algorithm in Taihang Mountain

Wen

Shi

Liu³

2019

IFS

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Hong-Yao Liu

Two-dimensional BiP3 with high carrier mobility and moderate band gap for hydrogen generation from water splitting

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Research on risk assessment of natural disaster based on cloud fuzzy clustering algorithm in Taihang Mountain

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Hong-Yao Liu

Two-dimensional BiP3 with high carrier mobility and moderate band gap for hydrogen generation from water splitting

The high power conversion efficiency of a two-dimensional GeSe/AsP van der Waals heterostructure for solar energy cells

Two-dimensional hexaphosphate BiMP6 (M = Al, Ga, In) with desirable band gaps and ultrahigh carrier mobility for photocatalytic hydrogen evolution

2D AlP3 with high carrier mobility and tunable band structure

Research on risk assessment of natural disaster based on cloud fuzzy clustering algorithm in Taihang Mountain

Contact Info

Product

Resources

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2D AlP₃ with high carrier mobility and tunable band structure