Microcavity Structures: Device Engineering for Highly Efficient Top-Illuminated Organic Solar Cells with Microcavity Structures (Adv. Mater. 17/2012)

Highly efficient top‐illuminated organic solar cells with microcavity structures are numerically simulated and fabricated by H.‐W. Lin, K.‐T. Wong, and co‐workers on page 2269. The high efficiencies are primarily attributed to the thin, electrically optimized active layers and the panchromatic simul...

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Published in:Advanced materials (Weinheim) 2012-05, Vol.24 (17), p.2268-2268
Main Authors: Lin, Hao-Wu, Chiu, Si-Wen, Lin, Li-Yen, Hung, Zheng-Yu, Chen, Yi-Hong, Lin, Francis, Wong, Ken-Tsung
Format: Article
Language:English
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capping layers
Computer simulation
flexible devices
microcavity structures
optical field distribution
organic solar cells
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container_issue 17
container_start_page 2268
container_title Advanced materials (Weinheim)
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creator Lin, Hao-Wu
Chiu, Si-Wen
Lin, Li-Yen
Hung, Zheng-Yu
Chen, Yi-Hong
Lin, Francis
Wong, Ken-Tsung
description Highly efficient top‐illuminated organic solar cells with microcavity structures are numerically simulated and fabricated by H.‐W. Lin, K.‐T. Wong, and co‐workers on page 2269. The high efficiencies are primarily attributed to the thin, electrically optimized active layers and the panchromatic simulation programdesigned in‐cell and out‐of‐cell optical resonance structures, incorporating favorable materials with good electrical and optical properties. Given the insensitivity of the substrate, this approach offers a new step toward highly efficient organic solar cells on all kinds of substrates.
doi_str_mv 10.1002/adma.201290094
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subjects capping layers
Computer simulation
flexible devices
microcavity structures
optical field distribution
organic solar cells
title Microcavity Structures: Device Engineering for Highly Efficient Top-Illuminated Organic Solar Cells with Microcavity Structures (Adv. Mater. 17/2012)
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