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Article Abstract
Surface activation is pivotal for achieving aluminum gallium nitride photocathode with low surface affinity, yet optimizing composition, adsorbates, and coverage is highly intricate. Using the (001) surface as a model, we constructed 625 configurations spanning Al component (0-1), coverage (0-1 ML), and coadsorption of main-group atoms (Li-Cs). Density-functional theory calculations of adsorption energy and work function served as the learning targets. Atomic and structural descriptors were standardized via statistical functions and one-hot encoding. Among seven algorithms, XGBoost achieved the highest accuracy (adsorption energy: = 0.982, MSE = 0.0006; work function: = 0.902, MSE = 0.0185). Feature analysis identified atomic number, atomic work function, and Al component as the dominant descriptors. After hyper-parameter optimization with the DBO algorithm, XGBoost predicted two out-of-sample surfaces (0.625 ML coverage and 0.125 Al component) with average accuracy of 94.9 and 98.3% for adsorption energy and 97.7 and 95.4% for work function, respectively. This study demonstrates the interpretability and transferability of machine learning in photocathode surface engineering and offers a new pathway for optimizing surface processes in photocathodes.
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| http://dx.doi.org/10.1021/acs.langmuir.5c02731 | DOI Listing |
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