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Recent progress in BaSi2 solar cells

机译：BaSi2太阳能电池的最新进展

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We fabricated p-BaSi2-Si solar cells by forming a 20-nm-thick B-doped p-BaSi2 epitaxial layer (p = 2.2 × 1018 cm-3) on an n-Si(111) substrate (ρ = 1-4 Ω cm) by molecular beam epitaxy (MBE). 3-nm-thick amorphous-Si was deposited on the p-BaSi2 surface to prevent the surface oxidation. According to the band alignment of p-BaSi2-Si heteroj unction, the separation of photogenerated minority carriers is promoted at the heterointerface. We recorded conversion efficiency of 9.0 % under AM1.5 illumination at 25°C. Short-circuit current density of 31.9 mA/cm2, open-circuit voltage of 0.46 V, and fill factor of 0.60 were obtained. These results suggest the potential of BaSi2 for solar cell application.

机译：我们通过在n-Si（111）衬底（ρ= 1）上形成厚度为20 nm的B掺杂的p-BaSi2外延层（p = 2.2×1018 cm-3）来制造p-BaSi2 / n-Si太阳能电池。 -4Ωcm）通过分子束外延（MBE）。在p-BaSi2表面上沉积了3 nm厚的非晶硅，以防止表面氧化。根据p-BaSi2 / n-Si异质结的能带排列，在异质界面上促进了光生少数载流子的分离。我们在25°C的AM1.5光照下记录了9.0％的转换效率。获得的短路电流密度为31.9 mA / cm2，开路电压为0.46 V，填充系数为0.60。这些结果表明BaSi 2在太阳能电池应用中的潜力。

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《International Workshop on Active-Matrix Flatpanel Displays and Devices 》|2016年|52-53|共2页
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作者
Takashi Suemasu;
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Photovoltaic cells; Molecular beam epitaxial growth; Substrates; Heterojunctions; Lighting; Silicon;

机译：光伏电池;分子束外延生长;基板;异质结;照明;硅;

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Recent progress in BaSi2 solar cells

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