The electronic and optical properties of silicon doped on arsenic and antimony nanotubes: a first-principles study

Liu, Yinuo; Hu, Ziyu; Shao, Xin

doi:10.1039/d3nj00685a

New J. Chem.

2023

DOI: 10.1039/d3nj00685a

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The electronic and optical properties of silicon doped on arsenic and antimony nanotubes: a first-principles study

Yinuo Liu

Ziyu Hu

Xin Shao

Abstract: Doping with silicon atoms was predicted to exhibit metallic behavior for armchair types, whereas zigzag-type arsenic nanotubes retain semiconductor behavior, just narrowing the gaps because of the greater hybridization between the s and p orbitals.

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2024

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Suppressing Oxygen Adsorption on Bulk Arsenic and 2D Arsenic Nanoflake Surfaces: The Role of Sb Doping

Hu,

Zhou,

Liao

et al. 2024

ACS Appl. Mater. Interfaces

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The susceptibility of bulk and exfoliated nanolayered arsenic to oxidation has been a significant obstacle limiting their widespread application and safe disposal. Here we report a controllable antimony-doped (Sb-doped) method via chemical vapor transport (CVT) with SnI 4 as a transport agent to prepare the bulk arsenic. After 96 h of exposure to air, the oxygen content on the surface of Sb-doped arsenic with SnI 4 is 67% lower compared to the undoped arsenic with SnI 4 , and 89% lower than the control group (undoped arsenic without SnI 4 ). Notably, Sbdoped arsenic is found to be easier and better exfoliated into twodimensional (2D) nanoflakes with an average diameter of approximately 180 nm and a thickness of 4−5 nm. Sb doping reduces the surface oxygen content of exfoliated arsenic nanoflakes by 48% after 48 h of oxidation. Comprehensive experimental investigations combined with first-principles calculations demonstrate that the antioxidation improvements resulting from Sb-doping are due to the decreased adsorption energies of I 2 on the (012) and (003) surfaces of Sb-doped arsenic, while the adsorption energies of O 2 increased compared to the corresponding surfaces of undoped arsenic. The enhanced long-term stability in both bulk and layered Sb-doped arsenic presents a promising avenue for further advanced applications.

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Suppressing Oxygen Adsorption on Bulk Arsenic and 2D Arsenic Nanoflake Surfaces: The Role of Sb Doping

Hu,

Zhou,

Liao

et al. 2024

ACS Appl. Mater. Interfaces

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show abstract

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The electronic and optical properties of silicon doped on arsenic and antimony nanotubes: a first-principles study

Abstract: Doping with silicon atoms was predicted to exhibit metallic behavior for armchair types, whereas zigzag-type arsenic nanotubes retain semiconductor behavior, just narrowing the gaps because of the greater hybridization between the s and p orbitals.

Cited by 1 publication

References 52 publications

Suppressing Oxygen Adsorption on Bulk Arsenic and 2D Arsenic Nanoflake Surfaces: The Role of Sb Doping

Suppressing Oxygen Adsorption on Bulk Arsenic and 2D Arsenic Nanoflake Surfaces: The Role of Sb Doping

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