2010
DOI: 10.1063/1.3326945
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Carrier transport and sensitivity issues in heterojunction with intrinsic thin layer solar cells on N-type crystalline silicon: A computer simulation study

Abstract: Heterojunction with intrinsic thin layer or "HIT" solar cells are considered favorable for large-scale manufacturing of solar modules, as they combine the high efficiency of crystalline silicon ͑c-Si͒ solar cells, with the low cost of amorphous silicon technology. In this article, based on experimental data published by Sanyo, we simulate the performance of a series of HIT cells on N-type crystalline silicon substrates with hydrogenated amorphous silicon ͑a-Si:H͒ emitter layers, to gain insight into carrier tr… Show more

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Cited by 61 publications
(45 citation statements)
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“…At 55 C, the cell with an oxide buffer layer exhibits an efficiency of 18.0% (18.6% at 25 C), compared to 17.7% (19.6% at 25 C) obtained from the reference cell. A similar effect has been reported in a simulation study by Rahmouni et al, 51 where thicker buffer layers lead to favorable temperature coefficients due to improving FF. However, in contrast to our findings for a-SiO x :H layers, devices with thicker i a-Si:H passivation layers do not show a better performance at elevated temperatures.…”
Section: Fig 5 Comparison Of Ftir Spectra (Raw Data)supporting
confidence: 67%
“…At 55 C, the cell with an oxide buffer layer exhibits an efficiency of 18.0% (18.6% at 25 C), compared to 17.7% (19.6% at 25 C) obtained from the reference cell. A similar effect has been reported in a simulation study by Rahmouni et al, 51 where thicker buffer layers lead to favorable temperature coefficients due to improving FF. However, in contrast to our findings for a-SiO x :H layers, devices with thicker i a-Si:H passivation layers do not show a better performance at elevated temperatures.…”
Section: Fig 5 Comparison Of Ftir Spectra (Raw Data)supporting
confidence: 67%
“…Photovoltaic performance is almost insensitive to the c-Si/BSF N id below 5× 10 11 cm −2 [8,9,14] and a value of 10 11 cm −2 has been assumed here in the modelling calculations. However, the calculated FF does not agree with the measured value, because of the high series resistance of the contacts, estimated to be ∼ 3 Ohm.…”
Section: -P3 Epj Photovoltaicsmentioning
confidence: 99%
“…The HJ cell V oc is known to be strongly sensitive to the defect density at the emitter/c-Si interface [8,9] and this fact has been used to estimate N id at this junction from modelling and turns out to be 4.5 × 10 11 cm −2 . Photovoltaic performance is almost insensitive to the c-Si/BSF N id below 5× 10 11 cm −2 [8,9,14] and a value of 10 11 cm −2 has been assumed here in the modelling calculations.…”
Section: -P3 Epj Photovoltaicsmentioning
confidence: 99%
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“…24 A subsequent data fitting was performed in order to match the measured lifetime data. As a starting point, the input parameters provided by Rahmouni et al 25 in order to model a standard HIT cell were used, and some slight adjustments in both the bulk and the interface parameters were undertaken in order to fit the measured lifetime data, see Figure 4. Table I summarizes the calibrated simulation input parameters used for the modelling of the c-Si substrate and the intrinsic/doped silicon thinfilms, based on the fitting of the effective lifetime curves.…”
Section: A Layer Calibrationmentioning
confidence: 99%