Efficient Photon Capturing with Ordered Three-Dimensional Nanowell Arrays
Siu‐Fung LeungMiao YuQingfeng LinKyungmook KwonKwong-Lung ChingLeilei GuKyoungsik YuZhiyong Fan
Abstract
Unique light-matter interaction at nanophotonic regime can be harnessed for designing efficient photonic and optoelectronic devices such as solar cells, lasers, and photodetectors. In this work, periodic photon nanowells are fabricated with a low-cost and scalable approach, followed by systematic investigations of their photon capturing properties combining experiments and simulations. Intriguingly, it is found that a proper periodicity greatly facilitates photon capturing process in the nanowells, primarily owing to optical diffraction. Meanwhile, the nanoengineered morphology renders the nanostructures with a broad-band efficient light absorption. The findings in this work can be utilized to implement a new type of nanostructure-based solar cells. Also, the methodology applied in this work can be generalized to rational design of other types of efficient photon-harvesting devices.
Metrics
Citation History
Topics
Related Documents
Efficient Photon Capturing\nwith Ordered Three-Dimensional\nNanowell Arrays
Siu-Fung Leung (1743979)Miao Yu (199182)Qingfeng Lin (621427)Kyungmook Kwon (2066071)Kwong-Lung Ching (2066074)Leilei Gu (2066077)Kyoungsik Yu (123350)Zhiyong Fan (785742)
Ordered Nanowell Arrays
ChemInform Abstract: Ordered Nanowell Arrays.
Efficient Light Absorption with Integrated Nanopillar/Nanowell Arrays for Three-Dimensional Thin-Film Photovoltaic Applications
Qingfeng LinBo HuaSiu‐Fung LeungXicheng DuanZhiyong Fan
Efficient Light Absorption with Integrated Nanopillar/Nanowell Arrays for Three-Dimensional Thin-Film Photovoltaic Applications
Qingfeng Lin (621427)Bo Hua (686653)Siu-fung Leung (1978009)Xicheng Duan (1978006)Zhiyong Fan (785742)