Nickel oxide (NiO) has recently attracted great attention for its use as a hole transport layer (HTL) of inverted perovskite solar cells (PSCs). In this paper, NiO films are fabricated on a silicon wafer and fluorine-doped tin oxide by plasma-enhanced atomic layer deposition (PEALD) with nickelocene as the metal precursor and oxygen plasma as the coreactant. The effects of the annealing treatment on the film properties at different annealing temperatures are analyzed. The experimental results show that the PEALD-NiO films have a high thickness uniformity and low surface roughness as evaluated by atomic force microscopy measurements. All the PEALD-NiO films have a wide bandgap and high transmittance of ∼80%–85% in the visible light range. The postannealing treatment induces a reduced electrical resistivity owing to crystal structure repair and surface defect reduction. This treatment also leads to a significantly enhanced wettability of the NiO films, facilitating perovskite layer deposition in subsequent device fabrication. Finally, the inverted PSCs based on the NiO HTL with different annealing temperatures demonstrate an enhanced performance of the device as compared to that with unannealed NiO HTL. The 400 °C-annealed PEALD-NiO HTL yields the best cell conversion efficiency, improving from 15.38% for unannealed NiO to 17.31%, demonstrating the potential of PEALD-NiO compact films for applications in inverted PSCs.
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December 2021
Research Article|
September 13 2021
Influence of annealing temperature of nickel oxide as hole transport layer applied for inverted perovskite solar cells
Special Collection:
Atomic Layer Deposition (ALD)
Ka-Te Chen;
Ka-Te Chen
1
School of Opto-electronic and Communication Engineering, Xiamen University of Technology
, Xiamen 361024, China
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Chia-Hsun Hsu;
Chia-Hsun Hsu
1
School of Opto-electronic and Communication Engineering, Xiamen University of Technology
, Xiamen 361024, China
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Fang-Bin Ren;
Fang-Bin Ren
1
School of Opto-electronic and Communication Engineering, Xiamen University of Technology
, Xiamen 361024, China
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Can Wang;
Can Wang
2
Fujian Provincial Key Laboratory of Nanomaterials, Fujian Institute of Research on the Structure of Matter, Chinese Academy of Sciences
, Fuzhou, Fujian 350002, China
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Peng Gao;
Peng Gao
2
Fujian Provincial Key Laboratory of Nanomaterials, Fujian Institute of Research on the Structure of Matter, Chinese Academy of Sciences
, Fuzhou, Fujian 350002, China
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Wan-Yu Wu;
Wan-Yu Wu
3
Department of Materials Science and Engineering, Da-Yeh University
, Changhua 51591, Taiwan
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Shui-Yang Lien
;
Shui-Yang Lien
a)
1
School of Opto-electronic and Communication Engineering, Xiamen University of Technology
, Xiamen 361024, China
3
Department of Materials Science and Engineering, Da-Yeh University
, Changhua 51591, Taiwan
4
Fujian Key Laboratory of Optoelectronic Technology and Devices, Xiamen University of Technology
, Xiamen 361024, China
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Wen-Zhang Zhu
Wen-Zhang Zhu
1
School of Opto-electronic and Communication Engineering, Xiamen University of Technology
, Xiamen 361024, China
4
Fujian Key Laboratory of Optoelectronic Technology and Devices, Xiamen University of Technology
, Xiamen 361024, China
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a)
Electronic mail: sylien@xmut.edu.cn
Note: This paper is part of the 2022 Special Topic Collection on Atomic Layer Deposition (ALD).
J. Vac. Sci. Technol. A 39, 062401 (2021)
Article history
Received:
June 02 2021
Accepted:
August 10 2021
Citation
Ka-Te Chen, Chia-Hsun Hsu, Fang-Bin Ren, Can Wang, Peng Gao, Wan-Yu Wu, Shui-Yang Lien, Wen-Zhang Zhu; Influence of annealing temperature of nickel oxide as hole transport layer applied for inverted perovskite solar cells. J. Vac. Sci. Technol. A 1 December 2021; 39 (6): 062401. https://doi.org/10.1116/6.0001191
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