Adsorption and dissociation of NO2 on MoS2 doped with p-block elements

•Se doping has virtually no impact on the adsorption of NO2 on MoS2.•Cl doping favors the same adsorption as the pristine sheet, but enhances the binding.•Si, P, and Ge doping promotes strong bonding of oxygen-dopant and nitrogen-dopant.•In some cases the oxygen-dopant interaction is strong enough t...

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Published in	Surface science Vol. 712; p. 1
Main Authors	Szary, Maciej J., Bąbelek, Jakub A., Florjan, Dominik M.
Format	Journal Article
Language	English
Published	Amsterdam Elsevier B.V 01.10.2021 Elsevier BV
Subjects	Accumulation Acid rain Adsorption Catalysis Charge transfer Chemical compounds Density functional theory Dissociation Doping Greenhouse effect Layered materials Molybdenum disulfide MoS[formula omitted] Nitrogen dioxide NO[formula omitted] Substrates Surface chemistry NO2 Density functional theory MoSMoS2 Dissociation Adsorption Doping
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Abstract	•Se doping has virtually no impact on the adsorption of NO2 on MoS2.•Cl doping favors the same adsorption as the pristine sheet, but enhances the binding.•Si, P, and Ge doping promotes strong bonding of oxygen-dopant and nitrogen-dopant.•In some cases the oxygen-dopant interaction is strong enough to reduce NO2 to NO.•Si, P, Cl and Ge doping enhances the electron transfer to the molecule of NO2. [Display omitted] Nitrogen dioxide (NO2) is a chemical compound produced in large amounts as a byproduct of combustion in vehicles and industrial processes. In its gas form, it is harmful to both human health and the environment causing acid rain, greenhouse effects, and a variety of respiratory symptoms. Hence, significant effort has been put into its detection and removal including studies on low-dimensional layered materials. Those have shown that molecules of NO2 have a good affinity for surfaces of molybdenum disulfide (MoS2). This allows for NO2 detection, however, the interaction is too weak for its effective accumulation or subsequent catalysis. Consequently, this work investigates, employing density functional theory, doping of MoS2 for enhanced NO2 adsorption, and the extent to which it affects the molecule. The results show that the strength of molecule-substrate interaction depends on the changes in the orbital population of the dopant. This results in different adsorption configurations with varying energies and molecule-substrate charge transfers. The changes allow Cl-MoS2 to be more suitable for detection, and Ge-MoS2 accumulation of NO2. Also, due to the interaction strength, the Si and P doped monolayers facilitate dissociation of NO2 into NO. Thus, tuning the potential of MoS2 for surface catalysis.
AbstractList	Nitrogen dioxide (NO2) is a chemical compound produced in large amounts as a byproduct of combustion in vehicles and industrial processes. In its gas form, it is harmful to both human health and the environment causing acid rain, greenhouse effects, and a variety of respiratory symptoms. Hence, significant effort has been put into its detection and removal including studies on low-dimensional layered materials. Those have shown that molecules of NO2 have a good affinity for surfaces of molybdenum disulfide (MoS2). This allows for No2 detection, however, the interaction is too weak for its effective accumulation or subsequent catalysis. Consequently, this work investigates, employing density functional theory, doping of MoS2 for enhanced NO2 adsorption, and the extent to which it affects the molecule. The results show that the strength of molecule-substrate interaction depends on the changes in the orbital population of the dopant. This results in different adsorption configurations with varying energies and molecule-substrate charge transfers. The changes allow Cl-MoS2 to be more suitable for detection, and Ge-MoS2 accumulation of NO2. Also, due to the interaction strength, the Si and P doped monolayers facilitate dissociation of NO2 into NO. Thus, tuning the potential of MoS2 for surface catalysis. •Se doping has virtually no impact on the adsorption of NO2 on MoS2.•Cl doping favors the same adsorption as the pristine sheet, but enhances the binding.•Si, P, and Ge doping promotes strong bonding of oxygen-dopant and nitrogen-dopant.•In some cases the oxygen-dopant interaction is strong enough to reduce NO2 to NO.•Si, P, Cl and Ge doping enhances the electron transfer to the molecule of NO2. [Display omitted] Nitrogen dioxide (NO2) is a chemical compound produced in large amounts as a byproduct of combustion in vehicles and industrial processes. In its gas form, it is harmful to both human health and the environment causing acid rain, greenhouse effects, and a variety of respiratory symptoms. Hence, significant effort has been put into its detection and removal including studies on low-dimensional layered materials. Those have shown that molecules of NO2 have a good affinity for surfaces of molybdenum disulfide (MoS2). This allows for NO2 detection, however, the interaction is too weak for its effective accumulation or subsequent catalysis. Consequently, this work investigates, employing density functional theory, doping of MoS2 for enhanced NO2 adsorption, and the extent to which it affects the molecule. The results show that the strength of molecule-substrate interaction depends on the changes in the orbital population of the dopant. This results in different adsorption configurations with varying energies and molecule-substrate charge transfers. The changes allow Cl-MoS2 to be more suitable for detection, and Ge-MoS2 accumulation of NO2. Also, due to the interaction strength, the Si and P doped monolayers facilitate dissociation of NO2 into NO. Thus, tuning the potential of MoS2 for surface catalysis.
ArticleNumber	121893
Author	Florjan, Dominik M. Bąbelek, Jakub A. Szary, Maciej J.
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Keywords	NO2 Density functional theory MoSMoS2 Dissociation Adsorption Doping
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Snippet	•Se doping has virtually no impact on the adsorption of NO2 on MoS2.•Cl doping favors the same adsorption as the pristine sheet, but enhances the binding.•Si,... Nitrogen dioxide (NO2) is a chemical compound produced in large amounts as a byproduct of combustion in vehicles and industrial processes. In its gas form, it...
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SubjectTerms	Accumulation Acid rain Adsorption Catalysis Charge transfer Chemical compounds Density functional theory Dissociation Doping Greenhouse effect Layered materials Molybdenum disulfide MoS[formula omitted] Nitrogen dioxide NO[formula omitted] Substrates Surface chemistry
Title	Adsorption and dissociation of NO2 on MoS2 doped with p-block elements
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