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Light trapping structures and plasmons synergistically enhance the photovoltaic performance of full-spectrum solar cells.
Nanoscale ( IF 5.8 ) Pub Date : 2020-01-08 , DOI: 10.1039/c9nr08761c Fen Qiao 1 , Yi Xie 2 , Gang He 3 , Huaqiang Chu 4 , Wenjie Liu 1 , Zhenya Chen 1
Nanoscale ( IF 5.8 ) Pub Date : 2020-01-08 , DOI: 10.1039/c9nr08761c Fen Qiao 1 , Yi Xie 2 , Gang He 3 , Huaqiang Chu 4 , Wenjie Liu 1 , Zhenya Chen 1
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A full-spectrum solar cell exhibits potential as an effective strategy to enhance the absorption of incident solar light. To ensure the absorption capability of solar cells, trapping structures or plasmons have emerged as two main ways of utilizing the full spectrum of solar energy. First, recent progress in the full-spectrum solar cells based on NCs was reviewed from the aspects of trapping structures and plasmon design. Moreover, the effects of light trapping and surface plasmon resonance on light absorption and photoelectronic conversion were emphasized and discussed. Finally, the application prospect of their combination in the field of full-spectrum solar cells was examined. It was pointed out that the deep exploration of the physical mechanism of photoelectric conversion, controllable preparation of the interface and stability of composite structures will become the main directions of future research.
中文翻译:
捕光结构和等离子体激元协同增强了全光谱太阳能电池的光伏性能。
全光谱太阳能电池具有潜力,可以作为一种增强入射太阳光吸收的有效策略。为了确保太阳能电池的吸收能力,捕获结构或等离激元已经成为利用全部太阳能光谱的两种主要方法。首先,从俘获结构和等离激元设计的角度回顾了基于NCs的全光谱太阳能电池的最新进展。此外,重点讨论了光陷阱和表面等离子体共振对光吸收和光电转换的影响。最后,探讨了它们的组合在全光谱太阳能电池领域中的应用前景。有人指出,对光电转换的物理机理的深入探索,
更新日期:2020-01-08
中文翻译:
捕光结构和等离子体激元协同增强了全光谱太阳能电池的光伏性能。
全光谱太阳能电池具有潜力,可以作为一种增强入射太阳光吸收的有效策略。为了确保太阳能电池的吸收能力,捕获结构或等离激元已经成为利用全部太阳能光谱的两种主要方法。首先,从俘获结构和等离激元设计的角度回顾了基于NCs的全光谱太阳能电池的最新进展。此外,重点讨论了光陷阱和表面等离子体共振对光吸收和光电转换的影响。最后,探讨了它们的组合在全光谱太阳能电池领域中的应用前景。有人指出,对光电转换的物理机理的深入探索,
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