Simulation study of Schottky contact based single Si wire solar cell
| Author | Rabbani, M. Golam |
| Author | Verma, Amit |
| Author | Nekovei, Reza |
| Author | Khader, Mahmoud M |
| Author | Anantram, M.P. |
| Available date | 2016-04-26T14:13:23Z |
| Publication Date | 2014 |
| Publication Name | 2014 IEEE 40th Photovoltaic Specialist Conference, PVSC 2014 |
| Resource | Scopus |
| Citation | M. G. Rabbani, A. Verma, R. Nekovei, M. M. Khader and M. P. Anantram, "Simulation study of Schottky contact based single Si wire solar cell," 2014 IEEE 40th Photovoltaic Specialist Conference (PVSC), Denver, CO, 2014, pp. 2896-2899. |
| ISSN | 0160-8371 |
| Abstract | We model single silicon nanowire (SiNW) solar cells with dissimilar work function metal contacts. Both short circuit current (ISC) and open circuit voltage (VOC) have been investigated. Effects of nanowire dimension, minority carrier lifetime, and contact metal work function difference are investigated. Both ISC and VOC increase with nanowire length before saturating due to minority carrier recombination. The saturation length is found to be approximately five times the diffusion length. The larger the contact work function difference, the more improved the solar cell characteristics. Large work function differences may also avoid need for any doping in axial p-i-n nanowire solar cells. Saturation in ISC as well as degradation in current density with length can be minimized by spreading the contacts along the length of the nanowire. |
| Sponsor | National Science Foundation under Grant No. 1001174 and by the QNRF grant (NPRP 5-968-2-403). M. P. Anantram was also supported by the University of Washington. Amit Verma, Mahmoud M. Khader, and Reza Nekovei were supported by the QNRF grant (NPRP 5-968-2-403). |
| Language | en |
| Publisher | IEEE |
| Subject | current density diffusion length dissimilar work function metals interdigitated contacts minority carrier lifetime Schottky contact Si nanowire |
| Type | Conference Paper |
| Pagination | 2896-2899 |
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GPC Research [499 items ]