Advanced High‐Throughput Rational Design of Porphyrin‐Sensitized Solar Cells Using Interpretable Machine Learning

Jian‐Ming Liao; Yu‐Hsuan Chen; Hsuan‐Wei Lee; Bo‐Cheng Guo; Po‐Cheng Su; Lun‐Hong Wang; Nagannagari Masi Reddy; Aswani Yella; Zhao‐Jie Zhang; Chuan‐Yung Chang; Chia‐Yuan Chen; Shaik M Zakeeruddin; Hui‐Hsu Gavin Tsai; Chen‐Yu Yeh; Michael Grätzel

doi:10.1002/advs.202407235

Advanced Science (Nov 2024)

Advanced High‐Throughput Rational Design of Porphyrin‐Sensitized Solar Cells Using Interpretable Machine Learning

Jian‐Ming Liao,
Yu‐Hsuan Chen,
Hsuan‐Wei Lee,
Bo‐Cheng Guo,
Po‐Cheng Su,
Lun‐Hong Wang,
Nagannagari Masi Reddy,
Aswani Yella,
Zhao‐Jie Zhang,
Chuan‐Yung Chang,
Chia‐Yuan Chen,
Shaik M Zakeeruddin,
Hui‐Hsu Gavin Tsai,
Chen‐Yu Yeh,
Michael Grätzel

Affiliations

Jian‐Ming Liao: Department of Chemistry National Central University No. 300, Zhongda Rd., Zhongli District Taoyuan City 32001 Taiwan
Yu‐Hsuan Chen: Department of Chemistry i‐Center for Advanced Science and Technology (i‐CAST) Innovation and Development Center of Sustainable Agriculture (IDCSA) National Chung Hsing University Taichung City 402 Taiwan
Hsuan‐Wei Lee: Department of Chemistry i‐Center for Advanced Science and Technology (i‐CAST) Innovation and Development Center of Sustainable Agriculture (IDCSA) National Chung Hsing University Taichung City 402 Taiwan
Bo‐Cheng Guo: Department of Chemistry i‐Center for Advanced Science and Technology (i‐CAST) Innovation and Development Center of Sustainable Agriculture (IDCSA) National Chung Hsing University Taichung City 402 Taiwan
Po‐Cheng Su: Department of Chemistry i‐Center for Advanced Science and Technology (i‐CAST) Innovation and Development Center of Sustainable Agriculture (IDCSA) National Chung Hsing University Taichung City 402 Taiwan
Lun‐Hong Wang: Department of Chemistry i‐Center for Advanced Science and Technology (i‐CAST) Innovation and Development Center of Sustainable Agriculture (IDCSA) National Chung Hsing University Taichung City 402 Taiwan
Nagannagari Masi Reddy: Department of Chemistry i‐Center for Advanced Science and Technology (i‐CAST) Innovation and Development Center of Sustainable Agriculture (IDCSA) National Chung Hsing University Taichung City 402 Taiwan
Aswani Yella: Laboratory for Photonics and Interfaces Institute of Chemical Sciences and Engineering École Polytechnique Fédérale de Lausanne Lausanne 1015 Switzerland
Zhao‐Jie Zhang: Department of Chemistry National Central University No. 300, Zhongda Rd., Zhongli District Taoyuan City 32001 Taiwan
Chuan‐Yung Chang: Department of Chemistry National Central University No. 300, Zhongda Rd., Zhongli District Taoyuan City 32001 Taiwan
Chia‐Yuan Chen: Department of Chemistry National Central University No. 300, Zhongda Rd., Zhongli District Taoyuan City 32001 Taiwan
Shaik M Zakeeruddin: Laboratory for Photonics and Interfaces Institute of Chemical Sciences and Engineering École Polytechnique Fédérale de Lausanne Lausanne 1015 Switzerland
Hui‐Hsu Gavin Tsai: Department of Chemistry National Central University No. 300, Zhongda Rd., Zhongli District Taoyuan City 32001 Taiwan
Chen‐Yu Yeh: Department of Chemistry i‐Center for Advanced Science and Technology (i‐CAST) Innovation and Development Center of Sustainable Agriculture (IDCSA) National Chung Hsing University Taichung City 402 Taiwan
Michael Grätzel: Laboratory for Photonics and Interfaces Institute of Chemical Sciences and Engineering École Polytechnique Fédérale de Lausanne Lausanne 1015 Switzerland

DOI: https://doi.org/10.1002/advs.202407235
Journal volume & issue: Vol. 11, no. 43
pp. n/a – n/a

Abstract

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Abstract Accurately predicting the power conversion efficiency (PCE) in dye‐sensitized solar cells (DSSCs) represents a crucial challenge, one that is pivotal for the high throughput rational design and screening of promising dye sensitizers. This study presents precise, predictive, and interpretable machine learning (ML) models specifically designed for Zn‐porphyrin‐sensitized solar cells. The model leverages theoretically computable, effective, and reusable molecular descriptors (MDs) to address this challenge. The models achieve excellent performance on a “blind test” of 17 newly designed cells, with a mean absolute error (MAE) of 1.02%. Notably, 10 dyes are predicted within a 1% error margin. These results validate the ML models and their importance in exploring uncharted chemical spaces of Zn‐porphyrins. SHAP analysis identifies crucial MDs that align well with experimental observations, providing valuable chemical guidelines for the rational design of dyes in DSSCs. These predictive ML models enable efficient in silico screening, significantly reducing analysis time for photovoltaic cells. Promising Zn‐porphyrin‐based dyes with exceptional PCE are identified, facilitating high‐throughput virtual screening. The prediction tool is publicly accessible at https://ai‐meta.chem.ncu.edu.tw/dsc‐meta.

Published in Advanced Science

ISSN: 2198-3844 (Online)
Publisher: Wiley
Country of publisher: Germany
LCC subjects: Science
Website: https://onlinelibrary.wiley.com/journal/21983844

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