Manipulating the electronic structures of silicon carbide nanotubes by selected hydrogenation |
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Authors: | Zhao Mingwen Xia Yueyuan Zhang R Q Lee S-T |
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Institution: | Department of Physics, Shandong University, Jinan 250100, Shandong, China. zmw@sdu.edu.cn |
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Abstract: | We show that the electronic and atomic structures of silicon carbide nanotubes (SiCNTs) undergo dramatic changes with hydrogenation from first-principles calculations based on density-functional theory. The exo-hydrogenation of a single C atom results in acceptor states close to the highest occupied valence band of pristine SiCNT, whereas donor states close to the lowest unoccupied conduction band appear as a Si atom being hydrogenated. Upon fully hydrogenating Si atoms, (8,0) and (6,6) SiCNTs become metallic with very high density of states at the Fermi level. The full hydrogenation of C atoms, on the other hand, increases the band gap to 2.6 eV for (8,0) SiCNT and decreases the band gap to 1.47 eV for (6,6) SiCNT, respectively. The band gap of SiCNTs can also be greatly increased through the hydrogenation of all the atoms. |
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