Amorphous-silicon m.i.s. solar cells

Iee Journal on Solidstate and Electron Devices Pub Date : 1978-06-01 DOI:10.1049/IJ-SSED:19780027
J.I.B. Wilson, J. Mcgill
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引用次数: 3

Abstract

M.I.S. solar cells of amorphous silicon on stainless steel, with a top barrier contact of Ni/TiOx, have given 4.8% power conversion efficiency without an antireflection coating. The insulating layer, with an optimum thickness of ? 2nm, compensates for the low work function of nickel compared with platinum, and enables similar high open-circuit voltages (up to 680 mV) to be obtained. The fill factor is not appreciably degraded by the addition of an insulating layer, unless this is thicker than = 3 nm. Under illumination, the diode characteristics change compared with their behaviour in the dark; the diode factor, the barrier height, and the series resistance are all dependent on light intensity.
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非晶硅质太阳能电池
不锈钢上非晶硅的M.I.S.太阳能电池,顶部有Ni/TiOx屏障接触,在没有增透涂层的情况下,功率转换效率为4.8%。保温层的最佳厚度为?2nm,补偿了镍与铂相比的低功函数,并可以获得类似的高开路电压(高达680 mV)。填充系数不会因添加绝缘层而明显降低,除非绝缘层厚度大于3nm。在光照下,二极管的特性与它们在黑暗中的行为相比发生了变化;二极管因数、势垒高度和串联电阻都取决于光强。
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Iee Journal on Solidstate and Electron Devices
Iee Journal on Solidstate and Electron Devices
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