1. Compound biomimetic structures for efficiency enhancement of Ga_05In_05P/GaAs/Ge triple-junction solar cells
- Author
-
Mu Min Hung, Hong Cheng Huang, Tung Ting Yang, Hau-Vei Han, Kuo Hsuan Hong, Yu Rue Wu, Peichen Yu, Chung Yu Hong, and Hong Yih Yeh
- Subjects
Fabrication ,Materials science ,Silicon dioxide ,Triple junction ,Photovoltaic system ,Energy conversion efficiency ,Nanotechnology ,Atomic and Molecular Physics, and Optics ,law.invention ,chemistry.chemical_compound ,Anti-reflective coating ,chemistry ,law ,Solar cell ,Rigorous coupled-wave analysis - Abstract
Biomimetic nanostructures have shown to enhance the optical absorption of Ga(0.5)In(0.5)P/GaAs/Ge triple junction solar cells due to excellent antireflective (AR) properties that, however, are highly dependent on their geometric dimensions. In practice, it is challenging to control fabrication conditions which produce nanostructures in ideal periodic arrangements and with tapered side-wall profiles, leading to sacrificed AR properties and solar cell performance. In this work, we introduce compound biomimetic nanostructures created by depositing a layer of silicon dioxide (SiO(2)) on top of titanium dioxide (TiO(2)) nanostructures for triple junction solar cells. The device exhibits photogenerated current and power conversion efficiency that are enhanced by ~8.9% and ~6.4%, respectively, after deposition due to their improved antireflection characteristics. We further investigate and verify the optical properties of compound structures via a rigorous coupled wave analysis model. The additional SiO(2) layer not only improves the geometric profile, but also serves as a double-layer dielectric coating. It is concluded that the compound biomimetic nanostructures exhibit superior AR properties that are relatively insensitive to fabrication constraints. Therefore, the compound approach can be widely adopted for versatile optoelectronic devices and applications.
- Published
- 2014
- Full Text
- View/download PDF