| Literature DB >> 25593550 |
Wen-Jeng Ho1, Min-Chun Huang1, Yi-Yu Lee1, Zhong-Fu Hou1, Changn-Jyun Liao1.
Abstract
In this study, we demonstrate the photovoltaic performance enhancement of a p-n junction silicon solar cell using a transparent-antireflective ITO/oxide film deposited on the spacing of the front-side finger electrodes and with a DC voltage applied on the ITO-electrode. The depletion width of the p-n junction under the ITO-electrode was induced and extended while the absorbed volume and built-in electric field were also increased when the biasing voltage was increased. The photocurrent and conversion efficiency were increased because more photo-carriers are generated in a larger absorbed volume and because the carriers transported and collected more effectively due to higher biasing voltage effects. Compared to a reference solar cell (which was biased at 0 V), a conversion efficiency enhancement of 26.57% (from 12.42% to 15.72%) and short-circuit current density enhancement of 42.43% (from 29.51 to 42.03 mA/cm(2)) were obtained as the proposed MOS-structure solar cell biased at 2.5 V. In addition, the capacitance-volt (C-V) measurement was also used to examine the mechanism of photovoltaic performance enhancement due to the depletion width being enlarged by applying a DC voltage on an ITO-electrode.Entities:
Keywords: Conversion efficiency; ITO; Metal oxide semiconductor; Silicon solar cell; Voltage biasing
Year: 2014 PMID: 25593550 PMCID: PMC4273678 DOI: 10.1186/1556-276X-9-658
Source DB: PubMed Journal: Nanoscale Res Lett ISSN: 1556-276X Impact factor: 4.703
Figure 1Schematic of an ITO/oxide/p-n-semiconductor (MOS-structure) silicon solar cell.
Figure 2Reflective spectrums of the bare solar cell and the MOS-structure solar cell.
Figure 3EQE responses of the bare solar cell and the MOS-structure solar cell with a 50-nm ITO/10-nm SiO AR coating.
Figure 4Photovoltaic J-V curves of the bare solar cell and the MOS-structure solar cell without voltage biasing on the ITO electrode (at 0 V).
Figure 5Photovoltaic J-V curves of the MOS-structure solar cell as a function the ITO biasing voltage.
Photovoltaic performances of the MOS-structure solar cell as a function of the ITO biasing voltage
| 23.38 | 29.51 | 30.06 | 32.43 | 34.17 | 37.23 | 42.03 | |
| 540.8 | 555.6 | 555.8 | 556.5 | 557.6 | 558.4 | 559.4 | |
| 0.76 | 0.76 | 0.75 | 0.71 | 0.70 | 0.68 | 0.67 | |
| 9.64 | 12.42 | 12.49 | 12.85 | 13.34 | 14.07 | 15.72 | |
Figure 6The induced p-n junction capacitance as a function of the ITO biasing voltage.
Figure 7Schematic of an MOS-structure silicon solar cell for the built-in electric field (E + ∆E) and depletion width (W + ∆W) of the p-n junction under the ITO-electrode dependent on the applied biasing voltage.