Machine-learning-assisted discovery of mechanosynthesized lead-free metal halide perovskites for the oxidative photocatalytic cleavage of alkenes

Machine-learning-assisted discovery of mechanosynthesized lead-free metal halide perovskites for the oxidative photocatalytic cleavage of alkenes

Lead-free metal halide perovskites can potentially be air- and water-stable photocatalysts for organic synthesis, but there have been limited studies on them for this application. Separately, machine learning (ML), a critical subfield of artificial intelligence, has played a pivotal role in identify...

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Main Authors: Xiao, Yonghao, Choudhuri, Khokan, Thanetchaiyakup, Adisak, Chan, Wei Xin, Hu, Xinwen, Sadek, Mansour, Tam, Ying Hern, Loh, Ryan Guanying, Sharifah Nadhirah Binte Shaik Mohammed, Lim, Kendric Jian Ying, Ten, Ju Zheng, Garcia, Felipe, Chellappan, Vijila, Choksi, Tej S., Lim, Yee‐Fun, Soo, Han Sen
Other Authors: School of Chemistry, Chemical Engineering and Biotechnology
Format: Article
Language:English
Published: 2024
Subjects:
Chemistry
Alkene oxidation
Lead-free perovskites
Online Access:https://hdl.handle.net/10356/177753
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Institution: Nanyang Technological University
Language: English
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Summary:Lead-free metal halide perovskites can potentially be air- and water-stable photocatalysts for organic synthesis, but there have been limited studies on them for this application. Separately, machine learning (ML), a critical subfield of artificial intelligence, has played a pivotal role in identifying correlations and formulating predictions based on extensive datasets. Herein, we describe an iterative workflow by incorporating high-throughput experimental data with ML to discover new lead-free metal halide perovskite photocatalysts for the aerobic oxidation of styrene. Through six rounds of ML optimization guided by SHapley Additive exPlanations (SHAP) analysis, we identified BA2CsAg0.95Na0.05BiBr7 as a photocatalyst that afforded an 80% yield of benzoic acid under our standard conditions, which is a 13-fold improvement compared to the 6% that we started with when using Cs2AgBiBr6 as the initial photocatalyst benchmark. We demonstrated that BA2CsAg0.95Na0.05BiBr7 could tolerate various functional groups with 22 styrene derivatives, highlighting the generality of the photocatalytic properties. Radical scavenging studies and density functional theory calculations revealed that formation of the reactive oxygen species superoxide and singlet oxygen in the presence of BA2CsAg0.95Na0.05BiBr7 were critical for the photocatalysis.

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