Ultrathin nanowire based on icosahedral W@Au12 and application as NO gas sensor

In this study, we used first-principles calculations to investigate the structural and electronic properties of an ultrathin nanowire formed by assembling icosahedral W@Au12 clusters and its application as a NO gas sensor. An ultrathin nanowire with a diameter of about 5.52 Å was produced via the co...

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Published inThe Journal of physics and chemistry of solids Vol. 127; pp. 68 - 75
Main Authors Yong, Yongliang, Cui, Hongling, Zhou, Qingxiao, Su, Xiangying, Kuang, Yanmin, Li, Xiaohong
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.04.2019
Subjects
Assembly
Density functional theory calculation
Icosahedral W@Au12
Nanowire
NO gas sensor
Icosahedral W@Au12
Nanowire
Density functional theory calculation
NO gas sensor
Assembly
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Abstract In this study, we used first-principles calculations to investigate the structural and electronic properties of an ultrathin nanowire formed by assembling icosahedral W@Au12 clusters and its application as a NO gas sensor. An ultrathin nanowire with a diameter of about 5.52 Å was produced via the coalescence of icosahedral W@Au12 clusters. The W@Au12-based nanowire exhibited semiconducting properties with a direct band gap. Frequency analysis and molecular dynamics simulations indicated that the nanowire was particularly stable at T = 300 K. The nanowire chemisorbed a NO molecule with moderate adsorption energy, and the N atom in NO bonding with the Au atom was the most stable bond. Analysis of the Boltzmann distribution and transition state demonstrated that the most stable configuration was particularly likely to form. The electronic properties of the W@Au12-based nanowire were changed dramatically by NO adsorption, with a transition from semiconducting to conducting behavior after NO adsorption. However, the adsorption of CO2, CH4, O2, H2, N2, or H2O molecules had little effect on the conductance of the nanowire. Our results indicated that the W@Au12-based nanowire sensor was highly sensitive and selective. The recovery time for the nanowire-based NO sensor was about 12 s at T = 300 K. Therefore, due to its moderate adsorption energy, significant change in the electric conductivity, and very rapid recovery time, we conclude that the W@Au12-based nanowire is a promising gas sensor with high performance at NO detection. •Ultrathin nanowire is formed by the coalescence of icosahedral W@Au12.•W@Au12-based nanowire particularly stable with semiconducting properties.•Conductance of the nanowire changed dramatically after NO adsorption.•Nanowire has high sensitivity/selectivity and rapid recovery time for NO detection.•Nanowire is a promising gas sensor with high performance at NO detection.
AbstractList In this study, we used first-principles calculations to investigate the structural and electronic properties of an ultrathin nanowire formed by assembling icosahedral W@Au12 clusters and its application as a NO gas sensor. An ultrathin nanowire with a diameter of about 5.52 Å was produced via the coalescence of icosahedral W@Au12 clusters. The W@Au12-based nanowire exhibited semiconducting properties with a direct band gap. Frequency analysis and molecular dynamics simulations indicated that the nanowire was particularly stable at T = 300 K. The nanowire chemisorbed a NO molecule with moderate adsorption energy, and the N atom in NO bonding with the Au atom was the most stable bond. Analysis of the Boltzmann distribution and transition state demonstrated that the most stable configuration was particularly likely to form. The electronic properties of the W@Au12-based nanowire were changed dramatically by NO adsorption, with a transition from semiconducting to conducting behavior after NO adsorption. However, the adsorption of CO2, CH4, O2, H2, N2, or H2O molecules had little effect on the conductance of the nanowire. Our results indicated that the W@Au12-based nanowire sensor was highly sensitive and selective. The recovery time for the nanowire-based NO sensor was about 12 s at T = 300 K. Therefore, due to its moderate adsorption energy, significant change in the electric conductivity, and very rapid recovery time, we conclude that the W@Au12-based nanowire is a promising gas sensor with high performance at NO detection. •Ultrathin nanowire is formed by the coalescence of icosahedral W@Au12.•W@Au12-based nanowire particularly stable with semiconducting properties.•Conductance of the nanowire changed dramatically after NO adsorption.•Nanowire has high sensitivity/selectivity and rapid recovery time for NO detection.•Nanowire is a promising gas sensor with high performance at NO detection.
Author Cui, Hongling
Li, Xiaohong
Su, Xiangying
Zhou, Qingxiao
Yong, Yongliang
Kuang, Yanmin
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Keywords Icosahedral W@Au12
Nanowire
Density functional theory calculation
NO gas sensor
Assembly
Language English
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Snippet In this study, we used first-principles calculations to investigate the structural and electronic properties of an ultrathin nanowire formed by assembling...
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SubjectTerms Assembly
Density functional theory calculation
Icosahedral W@Au12
Nanowire
NO gas sensor
Title Ultrathin nanowire based on icosahedral W@Au12 and application as NO gas sensor
URI https://dx.doi.org/10.1016/j.jpcs.2018.12.008
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