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Title: Efficient Light Harvesting by Well-Aligned In2O3 Nanopushpins as Antireflection Layer on Si Solar Cells
Authors: Chun-Ying Huang;Guan-Cheng Lin;Yeun-Jung Wu;Tai-Yuan Lin;Ying-Jay Yang;Yang-Fang Chen
Contributors: 國立臺灣海洋大學:光電科學研究所
Date: 2011
Issue Date: 2017-02-15T01:11:20Z
Publisher: The Journal of Physical Chemistry C
Abstract: Abstract: Light harvesting from In2O3 nanopushpins as an antireflection layer has been investigated. We report on the growth of In2O3 nanopushpins on silicon solar cells by catalyst-free and improved two-zone chemical vapor deposition in order to provide a suitable growth environment with low temperature and high growth rate for practical applications. On the basis of spectral reflectance and cell responsivity measurements, we show that In2O3 nanopushpins provide efficient light trapping properties. A dramatic enhancement in short-circuit current (from 19.65 to 24.73 mA/cm2) with In2O3 nanopushpins than that of the bulk silicon wafer is observed. The solar cells incorporated with In2O3 nanopushpins therefore open an excellent alternative to serve as an antireflection layer for the enhancement of light harvesting and cell efficiency.
Relation: 115(26)
Appears in Collections:[Institute of Optoelectronic Sciences] Periodical Articles

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