Adsorption of metal atoms on MoSi2N4 monolayer: A first principles study. (December 2022)
- Record Type:
- Journal Article
- Title:
- Adsorption of metal atoms on MoSi2N4 monolayer: A first principles study. (December 2022)
- Main Title:
- Adsorption of metal atoms on MoSi2N4 monolayer: A first principles study
- Authors:
- Cui, Zhen
Yang, Kunqi
Ren, Kai
Zhang, Shuang
Wang, Lu - Abstract:
- Abstract: The magnetic and electronic behaviors of metal atoms adsorbed MoSi2 N4 monolayer have been systematically researched by density functional theory. The results reveal that the most stable sites of MoSi2 N4 monolayer adsorbed by various metal are diverse. The band structures of the Li–MoSi2 N4 system exhibit the nonmagnetic metal behavior, while the Pd–MoSi2 N4, Pt–MoSi2 N4, and Zn–MoSi2 N4 systems indicate nonmagnetic semiconductors. Meanwhile, K–MoSi2 N4 and Na–MoSi2 N4 systems emerge magnetic metal character, and the Ag–MoSi2 N4, Au–MoSi2 N4, Bi–MoSi2 N4, Fe–MoSi2 N4, Mn–MoSi2 N4, Pb–MoSi2 N4, and V–MoSi2 N4 systems appear magnetic semiconductor features, while the magnetic moments are 1.00 μB, 1.00 μB, 1.00 μB, 3.00 μB, 5.87 μB, 4.26 μB, 0.37 μB, 0.52 μB, 1.94 μB, 2.86 μB, 3.85 μB, and 4.84 μB, respectively. Furthermore, the charge transfer arises between the metal atoms and MoSi2 N4 . Importantly, the work function of MoSi2 N4 system decreases greatly after metal adsorption, in particular, the work function of Li–MoSi2 N4 is lower 74.95% than that of pristine MoSi2 N4 . Therefore, it indicates that metal atoms adsorbed MoSi2 N4 systems can be used to manufacture spintronic and vacuum electron emission nanodevices. Graphical abstract: Image 1 Highlights: The Pd–MoSi2 N4, Pt–MoSi2 N4, and Zn–MoSi2 N4 systems indicate nonmagnetic semiconductors. The Ag–MoSi2 N4, Au–MoSi2 N4, Bi–MoSi2 N4, Fe–MoSi2 N4, Mn–MoSi2 N4, Pb–MoSi2 N4, and V–MoSi2 N4 systems appear magneticAbstract: The magnetic and electronic behaviors of metal atoms adsorbed MoSi2 N4 monolayer have been systematically researched by density functional theory. The results reveal that the most stable sites of MoSi2 N4 monolayer adsorbed by various metal are diverse. The band structures of the Li–MoSi2 N4 system exhibit the nonmagnetic metal behavior, while the Pd–MoSi2 N4, Pt–MoSi2 N4, and Zn–MoSi2 N4 systems indicate nonmagnetic semiconductors. Meanwhile, K–MoSi2 N4 and Na–MoSi2 N4 systems emerge magnetic metal character, and the Ag–MoSi2 N4, Au–MoSi2 N4, Bi–MoSi2 N4, Fe–MoSi2 N4, Mn–MoSi2 N4, Pb–MoSi2 N4, and V–MoSi2 N4 systems appear magnetic semiconductor features, while the magnetic moments are 1.00 μB, 1.00 μB, 1.00 μB, 3.00 μB, 5.87 μB, 4.26 μB, 0.37 μB, 0.52 μB, 1.94 μB, 2.86 μB, 3.85 μB, and 4.84 μB, respectively. Furthermore, the charge transfer arises between the metal atoms and MoSi2 N4 . Importantly, the work function of MoSi2 N4 system decreases greatly after metal adsorption, in particular, the work function of Li–MoSi2 N4 is lower 74.95% than that of pristine MoSi2 N4 . Therefore, it indicates that metal atoms adsorbed MoSi2 N4 systems can be used to manufacture spintronic and vacuum electron emission nanodevices. Graphical abstract: Image 1 Highlights: The Pd–MoSi2 N4, Pt–MoSi2 N4, and Zn–MoSi2 N4 systems indicate nonmagnetic semiconductors. The Ag–MoSi2 N4, Au–MoSi2 N4, Bi–MoSi2 N4, Fe–MoSi2 N4, Mn–MoSi2 N4, Pb–MoSi2 N4, and V–MoSi2 N4 systems appear magnetic semiconductor features. The work function of MoSi2 N4 system decreases greatly after metal adsorption, in particular, the work function of Li–MoSi2 N4 is lower 74.95% than that of pristine MoSi2 N4 . … (more)
- Is Part Of:
- Materials science in semiconductor processing. Volume 152(2023)
- Journal:
- Materials science in semiconductor processing
- Issue:
- Volume 152(2023)
- Issue Display:
- Volume 152, Issue 2023 (2023)
- Year:
- 2023
- Volume:
- 152
- Issue:
- 2023
- Issue Sort Value:
- 2023-0152-2023-0000
- Page Start:
- Page End:
- Publication Date:
- 2022-12
- Subjects:
- Adsorption -- Magnetic -- Metal atom -- Work function -- MoSi2N4 monolayer
Semiconductors -- Periodicals
Integrated circuits -- Materials -- Periodicals
Semiconducteurs -- Périodiques
Circuits intégrés -- Matériaux -- Périodiques
Electronic journals
621.38152 - Journal URLs:
- http://www.sciencedirect.com/science/journal/latest/13698001 ↗
http://www.elsevier.com/journals ↗ - DOI:
- 10.1016/j.mssp.2022.107072 ↗
- Languages:
- English
- ISSNs:
- 1369-8001
- Deposit Type:
- Legaldeposit
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- Available online (eLD content is only available in our Reading Rooms) ↗
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- British Library DSC - 5396.440600
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