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Harnessing Neural Networks for Elucidating X-ray Absorption Structure–Spectrum Relationships in Amorphous Carbon

Hyuna Kwon, Wenyu Sun, Tim Hsu, Wonseok Jeong, Fikret Aydin, Shubham Sharma, Fanchen Meng, Matthew R. Carbone, Xiao Chen, Deyu Lu, Liwen F. Wan, Michael H. Nielsen, Tuan Anh Pham

2023The Journal of Physical Chemistry C17 citationsDOIOpen Access PDF

Abstract

Improved understanding of structural and chemical properties through local experimental probes, such as X-ray absorption near-edge structure (XANES) spectroscopy, is crucial for the understanding and design of functional materials. In recent years, significant advancements have been made in the development of data science approaches for the automated interpretation of XANES structure–spectrum relationships. However, existing studies have primarily focused on crystalline solids and small molecules, while fewer efforts have been devoted to disordered systems. Thus, in this work, we demonstrate the development of neural network models for predicting and interpreting XANES spectra of amorphous carbon ( a -C) from local structural descriptors. Comparison between different structural descriptors expectedly shows that the inclusion of both bond length and bond angle information is necessary for an accurate prediction of the spectra. Among the descriptors considered in this work, we find that the local many-body tensor representation yields the highest accuracy and greatest interpretability so that it can be leveraged to understand the importance of structural motifs in determining XANES spectra. We also discuss performance of neural network models for predicting both local structure features, such as bond lengths and bond angles, and global chemical composition, such as the sp:sp 2:sp 3 ratio.

Topics & Concepts

XANESInterpretabilityAmorphous solidBond lengthAbsorption (acoustics)Spectral lineMaterials scienceRepresentation (politics)Chemical physicsBiological systemComputer scienceChemistryCrystallographyArtificial intelligencePhysicsCrystal structureBiologyPoliticsPolitical scienceAstronomyLawComposite materialMachine Learning in Materials ScienceX-ray Spectroscopy and Fluorescence AnalysisX-ray Diffraction in Crystallography
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