Adsorption Behavior of NO and NO[sub.2] on Two-Dimensional As, Sb, and Bi Materials: First-Principles Insights

To address the most significant environmental challenges, the quest for high-performance gas sensing materials is crucial. Among numerous two-dimensional materials, this study investigates the gas-sensitive capabilities of monolayer As, Sb, and Bi materials. To compare the gas detection abilities of...

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Veröffentlicht in:	Materials 2024-02, Vol.17 (5)
Hauptverfasser:	Zhang, Yuting, Chen, Xi, Fang, Dan, Yan, Hao, Wang, Dengkui, Wang, Xiaohua, Li, Jinhua, Zhai, Yingjiao, Chu, Xueying, Wang, Dongbo, Zhao, Hongbin, Fang, Xuan
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Schlagworte:	Semiconductors Sensors
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container_title	Materials
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creator	Zhang, Yuting Chen, Xi Fang, Dan Yan, Hao Wang, Dengkui Wang, Xiaohua Li, Jinhua Zhai, Yingjiao Chu, Xueying Wang, Dongbo Zhao, Hongbin Fang, Xuan
description	To address the most significant environmental challenges, the quest for high-performance gas sensing materials is crucial. Among numerous two-dimensional materials, this study investigates the gas-sensitive capabilities of monolayer As, Sb, and Bi materials. To compare the gas detection abilities of these three materials, we employ first-principles calculations to comprehensively study the adsorption behavior of NO and NO[sub.2] gas molecules on the material surfaces. The results indicate that monolayer Bi material exhibits reasonable adsorption distances, substantial adsorption energies, and significant charge transfer for both NO and NO[sub.2] gases. Therefore, among the materials studied, it demonstrates the best gas detection capability. Furthermore, monolayer As and Sb materials exhibit remarkably high capacities for adsorbing NO and NO[sub.2] gas molecules, firmly interacting with the gas molecules. Gas adsorption induces changes in the material’s work function, suggesting the potential application of these two materials as catalysts.
doi_str_mv	10.3390/ma17051024
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Among numerous two-dimensional materials, this study investigates the gas-sensitive capabilities of monolayer As, Sb, and Bi materials. To compare the gas detection abilities of these three materials, we employ first-principles calculations to comprehensively study the adsorption behavior of NO and NO[sub.2] gas molecules on the material surfaces. The results indicate that monolayer Bi material exhibits reasonable adsorption distances, substantial adsorption energies, and significant charge transfer for both NO and NO[sub.2] gases. Therefore, among the materials studied, it demonstrates the best gas detection capability. Furthermore, monolayer As and Sb materials exhibit remarkably high capacities for adsorbing NO and NO[sub.2] gas molecules, firmly interacting with the gas molecules. 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Among numerous two-dimensional materials, this study investigates the gas-sensitive capabilities of monolayer As, Sb, and Bi materials. To compare the gas detection abilities of these three materials, we employ first-principles calculations to comprehensively study the adsorption behavior of NO and NO[sub.2] gas molecules on the material surfaces. The results indicate that monolayer Bi material exhibits reasonable adsorption distances, substantial adsorption energies, and significant charge transfer for both NO and NO[sub.2] gases. Therefore, among the materials studied, it demonstrates the best gas detection capability. Furthermore, monolayer As and Sb materials exhibit remarkably high capacities for adsorbing NO and NO[sub.2] gas molecules, firmly interacting with the gas molecules. 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subjects	Semiconductors Sensors
title	Adsorption Behavior of NO and NO[sub.2] on Two-Dimensional As, Sb, and Bi Materials: First-Principles Insights
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