High-efficiency photon capturing in ultrathin silicon solar cells with front nanobowl texture and truncated-nanopyramid reflector
We present a crystalline siliconthin-film [5 mu m] solar cell decorated by a front nanobowled texture and a rear truncated- nanopyramid silver reflector. This design substantially suppresses the overall light reflection and enhances the optical resonances
We present a crystalline siliconthin-film [5 mu m] solar cell decorated by a front nanobowled texture and a rear truncated- nanopyramid silver reflector. This design substantially suppresses the overall light reflection and enhances the optical resonances
Li, XF [Li, Xiaofeng][ 1,2,3,4 ]、Yang, ZH [Yang, Zhenhai][ 1,2,3,4 ]、Ye, JC [Ye, Jichun][ 5 ]、Wu, SL [Wu, Shaolong][ 1,2,3,4 ]、Gao, PQ [Gao, Pingqi][ 5 ]
能源动力工业经济物理学材料科学
RRIER TRANSPORT CALCULATIONSABSORPTION ENHANCEMENTGRATINGSLIMIT
Li, XF [Li, Xiaofeng][ 1,2,3,4 ],Yang, ZH [Yang, Zhenhai][ 1,2,3,4 ],Ye, JC [Ye, Jichun][ 5 ],Wu, SL [Wu, Shaolong][ 1,2,3,4 ],Gao, PQ [Gao, Pingqi][ 5 ].High-efficiency photon capturing in ultrathin silicon solar cells with front nanobowl texture and truncated-nanopyramid reflector[EB/OL].(2017-05-02)[2025-05-17].https://chinaxiv.org/abs/201705.00285.点此复制
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