Download This PaperThe Absorption of Transition Metal Atoms in G-C6n6 Nanoribbon Induces Narrow Band Gap Semiconductor with Magnetism
18 Pages Posted: 16 Jun 2023
Abstract
The g-C6N6 is a semiconductor material, the effect of this material used in electronic and microelectronic devices is far from reaching the expected effect. To improve the overall performance of g-C6N6, this study decided to cut g-C6N6 for nanoribbons. It was found that g-C6N6 nanoribbons could not be directly used in electronic devices and microelectronic devices through first principles calculation. In order to change its properties, it was decided to adsorb two different transition metal atoms Fe and Mn in the g-C6N6 nanoribbons, respectively. The results show that g-C6N6 nanoribbons have magnetic properties after adsorbing transition metal atoms. Their energy band, density of states (DOS) and the charge density after the adsorption of transition metal atoms were analyzed. The results show that g-C6N6 nanoribbons becomes an indirect narrow band gap semiconductor by adsorbing different transition metal atoms, which improves the performance of g-C6N6 nanoribbons.
Keywords: Semiconductor material, G-C6N6 nanoribbons, Transition metal atoms, Narrow band gap semiconductor, magnetism
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