Electrical and optical properties of nickel-oxide films for efficient perovskite solar cells

Efficient hole transport layer (HTL) is crucial for realizing efficient perovskite solar cells (PSCs). In this study, nickel-oxide (NiOX) thin-films are investigated as a potential HTL for PSCs. The NiO(X)films are prepared by electron-beam physical vapor deposition at low temperatures. The crystall...

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Main Authors: Hossain, Mohammad Ismail, Hasan, A. K. Mahmud, Qarony, Wayesh, Shahiduzzaman, Md, Islam, Mohammad Aminul, Ishikawa, Yasuaki, Uraoka, Yukiharu, Amin, Nowshad, Knipp, Dietmar, Akhtaruzzaman, Md, Tsang, Yuen Hong
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Published: Wiley-V C H Verlag GMBH 2020
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Online Access:http://eprints.um.edu.my/37493/
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spelling my.um.eprints.374932023-02-10T07:38:11Z http://eprints.um.edu.my/37493/ Electrical and optical properties of nickel-oxide films for efficient perovskite solar cells Hossain, Mohammad Ismail Hasan, A. K. Mahmud Qarony, Wayesh Shahiduzzaman, Md Islam, Mohammad Aminul Ishikawa, Yasuaki Uraoka, Yukiharu Amin, Nowshad Knipp, Dietmar Akhtaruzzaman, Md Tsang, Yuen Hong QD Chemistry TK Electrical engineering. Electronics Nuclear engineering Efficient hole transport layer (HTL) is crucial for realizing efficient perovskite solar cells (PSCs). In this study, nickel-oxide (NiOX) thin-films are investigated as a potential HTL for PSCs. The NiO(X)films are prepared by electron-beam physical vapor deposition at low temperatures. The crystalline properties and the work function are determined by X-ray diffraction and photoelectric yield spectroscopy. The transmission and the complex refractive index of the films are determined by optical spectroscopy and ellipsometry. Furthermore, PSCs are fabricated and characterized. The short-circuit current density (J(sc)) of the PSC is limited by the optical loss due to the NiOx front contact. The optical losses of the front contact are quantified by optical simulations using finite-difference time-domain simulations, and a solar cell structure with improved light incoupling is designed. Furthermore, the electrical characteristics of the solar cell are simulated by finite element method simulations. As a result, it is found that the optical losses can be reduced by 70%, and the light incoupling can be improved so that theJ(SC)can be increased by up to 12%, allowing for the realization of PSCs with an energy conversion efficiency of 22%. Findings from the numerical simulations are compared with experimentally realized results. Wiley-V C H Verlag GMBH 2020-09 Article PeerReviewed Hossain, Mohammad Ismail and Hasan, A. K. Mahmud and Qarony, Wayesh and Shahiduzzaman, Md and Islam, Mohammad Aminul and Ishikawa, Yasuaki and Uraoka, Yukiharu and Amin, Nowshad and Knipp, Dietmar and Akhtaruzzaman, Md and Tsang, Yuen Hong (2020) Electrical and optical properties of nickel-oxide films for efficient perovskite solar cells. Small Methods, 4 (9). ISSN 2366-9608, DOI https://doi.org/10.1002/smtd.202000454 <https://doi.org/10.1002/smtd.202000454>. 10.1002/smtd.202000454
institution Universiti Malaya
building UM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Malaya
content_source UM Research Repository
url_provider http://eprints.um.edu.my/
topic QD Chemistry
TK Electrical engineering. Electronics Nuclear engineering
spellingShingle QD Chemistry
TK Electrical engineering. Electronics Nuclear engineering
Hossain, Mohammad Ismail
Hasan, A. K. Mahmud
Qarony, Wayesh
Shahiduzzaman, Md
Islam, Mohammad Aminul
Ishikawa, Yasuaki
Uraoka, Yukiharu
Amin, Nowshad
Knipp, Dietmar
Akhtaruzzaman, Md
Tsang, Yuen Hong
Electrical and optical properties of nickel-oxide films for efficient perovskite solar cells
description Efficient hole transport layer (HTL) is crucial for realizing efficient perovskite solar cells (PSCs). In this study, nickel-oxide (NiOX) thin-films are investigated as a potential HTL for PSCs. The NiO(X)films are prepared by electron-beam physical vapor deposition at low temperatures. The crystalline properties and the work function are determined by X-ray diffraction and photoelectric yield spectroscopy. The transmission and the complex refractive index of the films are determined by optical spectroscopy and ellipsometry. Furthermore, PSCs are fabricated and characterized. The short-circuit current density (J(sc)) of the PSC is limited by the optical loss due to the NiOx front contact. The optical losses of the front contact are quantified by optical simulations using finite-difference time-domain simulations, and a solar cell structure with improved light incoupling is designed. Furthermore, the electrical characteristics of the solar cell are simulated by finite element method simulations. As a result, it is found that the optical losses can be reduced by 70%, and the light incoupling can be improved so that theJ(SC)can be increased by up to 12%, allowing for the realization of PSCs with an energy conversion efficiency of 22%. Findings from the numerical simulations are compared with experimentally realized results.
format Article
author Hossain, Mohammad Ismail
Hasan, A. K. Mahmud
Qarony, Wayesh
Shahiduzzaman, Md
Islam, Mohammad Aminul
Ishikawa, Yasuaki
Uraoka, Yukiharu
Amin, Nowshad
Knipp, Dietmar
Akhtaruzzaman, Md
Tsang, Yuen Hong
author_facet Hossain, Mohammad Ismail
Hasan, A. K. Mahmud
Qarony, Wayesh
Shahiduzzaman, Md
Islam, Mohammad Aminul
Ishikawa, Yasuaki
Uraoka, Yukiharu
Amin, Nowshad
Knipp, Dietmar
Akhtaruzzaman, Md
Tsang, Yuen Hong
author_sort Hossain, Mohammad Ismail
title Electrical and optical properties of nickel-oxide films for efficient perovskite solar cells
title_short Electrical and optical properties of nickel-oxide films for efficient perovskite solar cells
title_full Electrical and optical properties of nickel-oxide films for efficient perovskite solar cells
title_fullStr Electrical and optical properties of nickel-oxide films for efficient perovskite solar cells
title_full_unstemmed Electrical and optical properties of nickel-oxide films for efficient perovskite solar cells
title_sort electrical and optical properties of nickel-oxide films for efficient perovskite solar cells
publisher Wiley-V C H Verlag GMBH
publishDate 2020
url http://eprints.um.edu.my/37493/
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