双异质结构和量子阱太阳能电池中的暗电流

Conference Record of the Twenty Sixth IEEE Photovoltaic Specialists Conference - 1997 Pub Date : 1997-09-29 DOI:10.1109/PVSC.1997.654238

R. Corkish, C. Honsberg

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引用次数: 15

摘要

数值模拟表明，双异质结构下带隙区准费米势的分离可能小于终端电压，从而导致比假设平坦准费米能级时所期望的更小的暗电流。准费米能级变化是对载流子输运限制的响应，这种输运限制是由空间电荷区域内的漂移和扩散或热离子发射引起的。这可能是在量子阱p-i-n太阳能电池中测量到的低暗电流的一种解释。这种效应，以及光生载流子可以高效率地从量子阱中逃逸的证据表明，在太阳能电池的耗尽区中包含低带隙区域可能会导致高效率的器件。

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Dark currents in double-heterostructure and quantum-well solar cells

Numerical modelling shows that the separation of the quasi-Fermi potentials in the lower bandgap region of a double-heterostructure may be less than the terminal voltage, resulting in smaller dark currents than would be expected if flat quasi-Fermi levels were assumed. Quasi-Fermi level variations occur as a response to carrier transport limitation by drift and diffusion within the space-charge region or by thermionic emission. This is a possible explanation for the low dark currents which have been measured in quantum-well p-i-n solar cells. This effect, together with evidence that photogenerated carriers can escape from quantum wells with high efficiency, suggests that the inclusion of low-bandgap regions in the depletion regions of solar cells may lead to high efficiency devices.

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Conference Record of the Twenty Sixth IEEE Photovoltaic Specialists Conference - 1997

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