R. Ahrenkiel, M. Al-Jassim, D. Dunlavy, K. Jones, S. Vernon, S. Tobin, V. Haven
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引用次数: 40
Abstract
AlGaAs/GaAs double heterostructures for solar cells were grown on heteroepitaxial GaAs/Si layers by metal-organic chemical vapor deposition. These test devices were subsequently characterized by photoluminescence and transmission electron microscopy. The minority carrier lifetimes were found to be limited by recombination at mismatch dislocations. An inverse correlation between dislocation density and minority carrier lifetime was observed. The use of thick (8 mu m) GaAs buffer layers in conjunction with thermal annealing of these structures reduced the dislocation density by about an order of magnitude. The minority carrier lifetime in these buffered heterostructures increased from 0.1 to 2 ns.<>
采用金属-有机化学气相沉积的方法,在异质外延GaAs/Si层上生长出用于太阳能电池的AlGaAs/GaAs双异质结构。这些测试装置随后通过光致发光和透射电子显微镜进行了表征。发现少数载流子寿命受到错配位错处重组的限制。位错密度与少数载流子寿命呈负相关。使用厚的(8 μ m) GaAs缓冲层并结合这些结构的热退火,使位错密度降低了大约一个数量级。这些缓冲异质结构中的少数载流子寿命从0.1 ns增加到2ns。
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