TDDFT Studies on sheet size-dependency of optoelectronic properties of 2d silicon
| Author | Alam, MD Raiyan |
| Author | Alwarappan, Ganesh |
| Author | Bhandari, Aashka |
| Author | Patil, Sunil |
| Author | Alfalah, Sherin |
| Author | Shibl, Mohamed F. |
| Author | Hassan, Walid M.I. |
| Author | Nekovci, Reza |
| Author | Verma, Amit |
| Available date | 2020-05-15T00:15:04Z |
| Publication Date | 2019 |
| Publication Name | 2018 IEEE 13th Nanotechnology Materials and Devices Conference, NMDC 2018 |
| Resource | Scopus |
| Abstract | Silicene, a two-dimensional (2D) silicon nanosheet, has gained immense interest due to potential applications, better compatibility, and expected integration with current silicon (Si) technology. This work explores the effects of silicene sheet size on its optoelectronic properties using Time-Dependent Density Functional Theory (TDDFT). Four structures of hydrogen-terminated silicene, Si 13 H 22 , Si 19 H 30, Sis4H 74 , and Si l04 H 134 are investigated. It is observed that the structures have size tunable spectral response in the UV spectrum. The optimized sheets show a relatively smaller physical deformation compared to equivalent sized 2D Germanium sheets. IR spectra calculation of various bond vibrations show a good match with reported experimental results. The results show the potential for these 2D sheets to be effective optoelectronic materials in the visible spectrum, unlike bulk Si and Si nanowires. 2018 IEEE. |
| Language | en |
| Publisher | Institute of Electrical and Electronics Engineers Inc. |
| Subject | DOS Gaussian 16 GaussSum IR-Spectrum Molar absorptivity Silicene TDDFT UV-VIS |
| Type | Conference Paper |
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GPC Research [479 items ]