Theoretical insights into the interplay between Sb vacancy and Fe on magnetic and optoelectronic properties of Fe-doped antimonene

Theoretical insights into the interplay between Sb vacancy and Fe on magnetic and optoelectronic properties of Fe-doped antimonene

Fe substitution and its complex with Sb vacancy (VSb) in antimonene have been investigated using the hybrid functional method, dedicated to self-consistently predicting and interpreting their effects on the magnetic properties and optoelectronic functionalities of antimonene. First, we find that a s...

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Bibliographic Details
Published in:Chemical physics Vol. 576; p. 112107
Main Authors: Han, Xiaoping, Benkraouda, Maamar, Wang, Zhiyuan, Zhang, Zongsheng, Amrane, Noureddine
Format: Journal Article
Language:English
Published: Elsevier B.V 01-01-2024
Subjects:
Antimonene
Fe doping
Hybrid functional
Magnetic properties
Optoelectronics
Sb vacancy
Hybrid functional
Optoelectronics
Sb vacancy
Antimonene
Fe doping
Magnetic properties
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Summary:Fe substitution and its complex with Sb vacancy (VSb) in antimonene have been investigated using the hybrid functional method, dedicated to self-consistently predicting and interpreting their effects on the magnetic properties and optoelectronic functionalities of antimonene. First, we find that a single Fe substitution induces magnetism via the Sb(5p)-Fe(3d) hybridization, and promotes the optical absorption through inducing redshift and absorption peak. Further incorporation of VSb stabilizes Fe dopant via the strong attraction, forming a Fe-VSb cluster. The clustering of VSb with Fe causes the electron localizations at both Fe and VSb sites, leading to (i) the ferromagnetic Sb(5p)-Fe(3d) hybridization and (ii) the polarization of electrons at VSb, remarkably enhancing the magnetism. Simultaneously, the Fe-VSb cluster induces more evident redshift and absorption peak than a single Fe dopant, effectively boosting the photoabsorption. This work has implications in modulating electronic and magnetic properties of antimonene to developing the spintronic and optoelectronic applications.
ISSN:0301-0104
DOI:10.1016/j.chemphys.2023.112107