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Prediction of Maximum Absorption Wavelength Using Deep Neural Networks

Jinning Shao, Yue Liu, Jiaqi Yan, Ze‐Yi Yan, Yangyang Wu, Zhongying Ru, Jia‐Yu Liao, Xiaoye Miao, Linghui Qian

2022Journal of Chemical Information and Modeling46 citationsDOI

Abstract

Fluorescent molecules are important tools in biological detection, and numerous efforts have been made to develop compounds to meet the desired photophysical properties. For example, tuning the wavelength allows an appropriate penetration depth with minimal interference from the autofluorescence/scattering for a better signal-to-noise contrast. However, there are limited guidelines to rationally design or computationally predict the optical properties from first principles, and factors like the solvent effects will make it more complicated. Herein, we established a database (SMFluo1) of 1181 solvated small-molecule fluorophores covering the ultraviolet–visible–near-infrared absorption window and developed new machine learning models based on deep neural networks for accurately predicting photophysical parameters. The optimal system was applied to 120 out-of-sample compounds, and it exhibited remarkable accuracy with a mean relative error of 1.52%. In this new paradigm, a deep learning algorithm is promising to complement conventional theoretical and experimental studies of fluorophores and to greatly accelerate the discovery of new dyes. Due to its simplicity and efficiency, data from newly developed fluorophores can be easily supplemented to this system to further improve the accuracy across various dye families.

Topics & Concepts

Computer scienceArtificial neural networkAbsorption (acoustics)Biological systemNear-infrared spectroscopyFluorescenceWavelengthInterference (communication)UltravioletArtificial intelligenceDeep learningMaterials scienceOpticsOptoelectronicsTelecommunicationsPhysicsBiologyComposite materialChannel (broadcasting)Luminescence and Fluorescent MaterialsAnalytical Chemistry and SensorsNanoplatforms for cancer theranostics
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