R. Walters, M. González, J. Tischler, M. Lumb, J. Meyer, I. Vurgaftman, J. Abell, M. Yakes, N. Ekins‐Daukes, J. Adams, N. Chan, P. Stavrinou, P. Jenkins
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引用次数: 34
Abstract
A design for a realistically achievable, multijunction solar cell based on all lattice-matched materials with >50% projected efficiencies under concentration is presented. Using quaternary materials such as InAlAsSb and InGaAlAs at stochiometries lattice-matched to InP substrates, direct bandgaps ranging from 0.74eV up to ∼1.8eV, ideal for solar energy conversion, can be achieved. In addition, multi-quantum well structures are used to reduce the band-gap further to <0.7 eV. A triple-junction (3J) solar cell using these materials is described, and in-depth modeling results are presented showing realistically achievable efficiencies of AM1.5D 500X of η ∼ 53% and AM0 1 Sun of η∼ 37%.
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