英语翻译The closer an energy level is situated to the middle of the gap the higher its efficiency as a recombination center.In addition,its atomic properties are influential.They can be characterized by its capture cross sections for electrons an
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英语翻译The closer an energy level is situated to the middle of the gap the higher its efficiency as a recombination center.In addition,its atomic properties are influential.They can be characterized by its capture cross sections for electrons an
英语翻译
The closer an energy level is situated to the middle of the gap the higher its efficiency as a recombination center.In addition,its atomic properties are influential.They can be characterized by its capture cross sections for electrons and holes.The quality of a semiconductor material is expressed by the lifetime τ for minority carriers.Obviously,good material has a long lifetime.For solar cells,even more important is the diffusion length L,which is derived from lifetime.It is the distance an excess carrier can move by diffusion before being annihilated by recombination.Only light absorbed within a distance of about the diffusion length from the p-n junction can contribute to the electrical
output.High efficiency cells must have a diffusion length larger than the cell thickness.
英语翻译The closer an energy level is situated to the middle of the gap the higher its efficiency as a recombination center.In addition,its atomic properties are influential.They can be characterized by its capture cross sections for electrons an
更密切的一个能级位于中东的差距更高的效率,重组中心.此外,它的原子属性是有影响的.他们可以通过其捕获截面电子和空穴.质量的半导体材料所表达的是一生τ为少数运营商.显然,
良好的材料有很长的寿命.太阳能电池,更重要的是传播长度L ,这是来自寿命.这是距离超出承运人可以将扩散前被消灭的重组.只有吸收光线的距离内的扩散长度从PN结能有助于电气
输出.高效率细胞必须有一个扩散长度大于细胞厚度.
半导体的专有名词不懂,你自己改下吧。
能量级离缝隙中心越近,作为再复合中心的效率越高。此外,它的原子属性是有影响的。他们通过电子和孔穴的俘获截面表现出来。半导体材料的质量通过少数载流子的寿命T来体现。很明显,好的半导体材料有更长的寿命。对太阳能电池来说,更重要的是源自于寿命的扩散长度L。它是一个载流子在被复合消灭之前通过扩散能移动的距离,只有来自PN结的扩散长度距离内的光线吸收才能...
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半导体的专有名词不懂,你自己改下吧。
能量级离缝隙中心越近,作为再复合中心的效率越高。此外,它的原子属性是有影响的。他们通过电子和孔穴的俘获截面表现出来。半导体材料的质量通过少数载流子的寿命T来体现。很明显,好的半导体材料有更长的寿命。对太阳能电池来说,更重要的是源自于寿命的扩散长度L。它是一个载流子在被复合消灭之前通过扩散能移动的距离,只有来自PN结的扩散长度距离内的光线吸收才能有助于电子输出。高效率的单元必须有一个比单元厚度大的多的扩散长度。
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重组中心能级越接近裂缝中央,它的能率就越高。此外,它的原子属性是有影响的。它们可以通过捕获的其截面电子和孔。半导体材料的质量τ为少数载体的寿命。显然,良好的材料有很长的寿命。太阳能电池,更重要的是传播长度取决于寿命L。这是超出载体被废止的重组前扩散可以移动的距离。
只有吸收光线的距离内的扩散长度从PN结能有助于电气
输出。高效率细胞必须有一个扩散长度大于细胞厚度。...
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重组中心能级越接近裂缝中央,它的能率就越高。此外,它的原子属性是有影响的。它们可以通过捕获的其截面电子和孔。半导体材料的质量τ为少数载体的寿命。显然,良好的材料有很长的寿命。太阳能电池,更重要的是传播长度取决于寿命L。这是超出载体被废止的重组前扩散可以移动的距离。
只有吸收光线的距离内的扩散长度从PN结能有助于电气
输出。高效率细胞必须有一个扩散长度大于细胞厚度。
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