Fabrication of copper window electrodes with ≈108 apertures cm−2 for organic photovoltaics
Fabrication of copper window electrodes with ≈108 apertures cm−2 for organic photovoltaics
A powerful approach to increasing the far-field transparency of copper film window electrodes which simultaneously reduces intraband absorption losses for wavelengths <550 nm and suppresses reflective losses for wavelengths >550 nm is reported. The approach is based on incorporation of a random array of ≈100 million circular apertures per cm2 into an optically thin copper film, with a mean aperture diameter of ≈500 nm. A method for the fabrication of these electrodes is described that exploits a binary polymer blend mask that self-organizes at room temperature from a single solution, and so is simple to implement. Additionally all of the materials used in electrode fabrication are low cost, low toxicity, and widely available. It is shown that these nanostructured copper electrodes offer an average far-field transparency of ≥80% and sheet resistance of ≤10 Ω sq−1 when used in conjunction with a conventional solution processed ZnO electron transport layer and their utility in inverted organic photovoltaic devices is demonstrated.
Pereira, H. Jessica
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Reed, Joseph
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Lee, Jaemin
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Varagnolo, Silvia
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Dabera, G. Dinesha M.R.
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Hatton, Ross A.
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Pereira, H. Jessica
99b16ebd-fa9f-41f0-a4fe-f0c0e22f6697
Reed, Joseph
41530ef0-9300-4776-a4dd-b6071f6340c9
Lee, Jaemin
c2b92a9d-2948-42ea-a567-6336907aa3b8
Varagnolo, Silvia
ceb0ee14-654d-4d62-8590-84c369bef586
Dabera, G. Dinesha M.R.
a8514a81-7fcd-493d-a82c-b622ed0c0b1a
Hatton, Ross A.
6ec6ea00-21f1-4db6-93df-9793f8ebaee7
Pereira, H. Jessica, Reed, Joseph, Lee, Jaemin, Varagnolo, Silvia, Dabera, G. Dinesha M.R. and Hatton, Ross A.
(2018)
Fabrication of copper window electrodes with ≈108 apertures cm−2 for organic photovoltaics.
Advanced Functional Materials, 28 (36), [1802893].
(doi:10.1002/adfm.201802893).
Abstract
A powerful approach to increasing the far-field transparency of copper film window electrodes which simultaneously reduces intraband absorption losses for wavelengths <550 nm and suppresses reflective losses for wavelengths >550 nm is reported. The approach is based on incorporation of a random array of ≈100 million circular apertures per cm2 into an optically thin copper film, with a mean aperture diameter of ≈500 nm. A method for the fabrication of these electrodes is described that exploits a binary polymer blend mask that self-organizes at room temperature from a single solution, and so is simple to implement. Additionally all of the materials used in electrode fabrication are low cost, low toxicity, and widely available. It is shown that these nanostructured copper electrodes offer an average far-field transparency of ≥80% and sheet resistance of ≤10 Ω sq−1 when used in conjunction with a conventional solution processed ZnO electron transport layer and their utility in inverted organic photovoltaic devices is demonstrated.
Text
Adv Funct Materials - 2018 - Pereira - Fabrication of Copper Window Electrodes with 108 Apertures cm 2 for Organic
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e-pub ahead of print date: 23 July 2018
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Local EPrints ID: 483221
URI: http://eprints.soton.ac.uk/id/eprint/483221
ISSN: 1616-301X
PURE UUID: 4958b5ea-9080-4a6e-9ce5-0c9631f6be7e
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Date deposited: 26 Oct 2023 16:46
Last modified: 18 Mar 2024 04:14
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Author:
H. Jessica Pereira
Author:
Joseph Reed
Author:
Jaemin Lee
Author:
Silvia Varagnolo
Author:
G. Dinesha M.R. Dabera
Author:
Ross A. Hatton
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