Structural, electronic, and optical properties of two-dimensional and bulk ZrNBr from first-principles calculations

Shuang Zhao; Wei Zeng; Zheng Tang Liu; Qi Jun Liu; Dai He Fan; Juan Gao; Zhen Jiao

doi:10.1016/j.chemphys.2024.112487

Structural, electronic, and optical properties of two-dimensional and bulk ZrNBr from first-principles calculations

Shuang Zhao, Wei Zeng, Zheng Tang Liu, Qi Jun Liu, Dai He Fan, Juan Gao, Zhen Jiao

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摘要

A recent study proved that β-ZrNBr displays multifunctionalities in optical applications. Based on DFT, a detailed investigation of crystal structures, electronic, and optical properties were investigated across monolayer, bilayer, trilayer, and bulk forms. Results revealed bulk and 2D ZrNBr are semiconductor nature with indirect band gaps decreasing with layer number. Electronic structure analysis highlighted contributions from Zr-4d, N-2p, and Br-4p hybrids. Optical properties including dielectric function, reflectance, absorption coefficient, and transmittance are also analyzed. The obtained results indicate that 2D and bulk ZrNBr are both p-type transparent conductive materials, with monolayer ZrNBr exhibiting superior performance in transparency and conductivity.

源语言	英语
文章编号	112487
期刊	Chemical Physics
卷	588
DOI	https://doi.org/10.1016/j.chemphys.2024.112487
出版状态	已出版 - 1 1月 2025
已对外发布	是

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title = "Structural, electronic, and optical properties of two-dimensional and bulk ZrNBr from first-principles calculations",

abstract = "A recent study proved that β-ZrNBr displays multifunctionalities in optical applications. Based on DFT, a detailed investigation of crystal structures, electronic, and optical properties were investigated across monolayer, bilayer, trilayer, and bulk forms. Results revealed bulk and 2D ZrNBr are semiconductor nature with indirect band gaps decreasing with layer number. Electronic structure analysis highlighted contributions from Zr-4d, N-2p, and Br-4p hybrids. Optical properties including dielectric function, reflectance, absorption coefficient, and transmittance are also analyzed. The obtained results indicate that 2D and bulk ZrNBr are both p-type transparent conductive materials, with monolayer ZrNBr exhibiting superior performance in transparency and conductivity.",

keywords = "DFT, Electronic structures, Optical properties, Two-dimensional materials, ZrNBr",

author = "Shuang Zhao and Wei Zeng and Liu, {Zheng Tang} and Liu, {Qi Jun} and Fan, {Dai He} and Juan Gao and Zhen Jiao",

note = "Publisher Copyright: {\textcopyright} 2024 Elsevier B.V.",

year = "2025",

month = jan,

day = "1",

doi = "10.1016/j.chemphys.2024.112487",

language = "英语",

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T1 - Structural, electronic, and optical properties of two-dimensional and bulk ZrNBr from first-principles calculations

AU - Zhao, Shuang

AU - Zeng, Wei

AU - Liu, Zheng Tang

AU - Liu, Qi Jun

AU - Fan, Dai He

AU - Gao, Juan

AU - Jiao, Zhen

PY - 2025/1/1

Y1 - 2025/1/1

N2 - A recent study proved that β-ZrNBr displays multifunctionalities in optical applications. Based on DFT, a detailed investigation of crystal structures, electronic, and optical properties were investigated across monolayer, bilayer, trilayer, and bulk forms. Results revealed bulk and 2D ZrNBr are semiconductor nature with indirect band gaps decreasing with layer number. Electronic structure analysis highlighted contributions from Zr-4d, N-2p, and Br-4p hybrids. Optical properties including dielectric function, reflectance, absorption coefficient, and transmittance are also analyzed. The obtained results indicate that 2D and bulk ZrNBr are both p-type transparent conductive materials, with monolayer ZrNBr exhibiting superior performance in transparency and conductivity.

AB - A recent study proved that β-ZrNBr displays multifunctionalities in optical applications. Based on DFT, a detailed investigation of crystal structures, electronic, and optical properties were investigated across monolayer, bilayer, trilayer, and bulk forms. Results revealed bulk and 2D ZrNBr are semiconductor nature with indirect band gaps decreasing with layer number. Electronic structure analysis highlighted contributions from Zr-4d, N-2p, and Br-4p hybrids. Optical properties including dielectric function, reflectance, absorption coefficient, and transmittance are also analyzed. The obtained results indicate that 2D and bulk ZrNBr are both p-type transparent conductive materials, with monolayer ZrNBr exhibiting superior performance in transparency and conductivity.

KW - DFT

KW - Electronic structures

KW - Optical properties

KW - Two-dimensional materials

KW - ZrNBr

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DO - 10.1016/j.chemphys.2024.112487

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SN - 0301-0104

VL - 588

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JF - Chemical Physics

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Structural, electronic, and optical properties of two-dimensional and bulk ZrNBr from first-principles calculations

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