Machine learning prediction of 2D perovskite photovoltaics and interaction with energetic ion implantation

Machine learning prediction of 2D perovskite photovoltaics and interaction with energetic ion implantation

Atomic-level prediction combined with machine learning (ML) and density functional theory (DFT) is carried out to accelerate the fast discovery of potential photovoltaics from the 2D perovskites. Based on the ML prediction, stability test, optical absorption, and the theoretical power conversion eff...

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Bibliographic Details
Published in:Applied physics letters Vol. 119; no. 23
Main Authors: Feng, Hong-Jian, Ma, Ping
Format: Journal Article
Language:English
Published: Melville American Institute of Physics 06-12-2021
Subjects:
Applied physics
Copper
Density functional theory
Efficiency
Energy conversion efficiency
Ion implantation
Machine learning
Perovskites
Photovoltaic cells
Silver
Solar cells
Stability analysis
Stability tests
Valence band
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Summary:Atomic-level prediction combined with machine learning (ML) and density functional theory (DFT) is carried out to accelerate the fast discovery of potential photovoltaics from the 2D perovskites. Based on the ML prediction, stability test, optical absorption, and the theoretical power conversion efficiency (PCE) evaluation, two promising photovoltaics, i.e., Sr2VON3 and Ba2VON3, are discovered with PCE as high as 30.35% and 26.03%, respectively. Cu, Ag, C, N, H, and He ion implantation are adopted to improve the photovoltaic performance of the high-efficiency and best stable perovskite Sr2VON3. The time-dependent DFT electronic stopping calculations for energetic ion implanted Sr2VON3 indicate that the excited electrons from the valence band contribute to the electron–phonon coupling, the evolution and formation of the defects, and the photovoltaic performance. This work opens the way to the high-accuracy fast discovery of the high-efficiency and environmentally stable 2D perovskites solar cells and the further engineering improvement in photovoltaic performance by ion implantation.
ISSN:0003-6951
1077-3118
DOI:10.1063/5.0072745