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Abstract
The surface immobilization of molecular catalysts is attractive because it combines the benefits of homogeneous and heterogeneous catalysis. However, determining the surface coverage and distribution of a molecular catalyst on a solid support is often challenging, inhibiting our ability to design improved catalytic systems. Here, we demonstrate that the combination of scanning transmission electron microscopy (STEM) and image analysis of the individual positions of heavy atoms in transition metal complexes via a convolutional neural network (CNN) allows statistically robust determination of the surface coverage and distribution of immobilized molecular catalysts. These observations provide information about how changes in the functionalization conditions, attachment group, and structure of the molecular catalyst affect the surface coverage and distribution, providing insight into the chemical mechanism of surface immobilization. The method could be generally valuable for correlating the surface coverage and distribution to the activity, selectivity, and stability of a catalytic system.
Supplementary materials
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Supplementary information
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Supplementary information including Supplementary Notes, Supplementary Figures, Supplementary Tables, and Captions for Supplementary Movies
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Supplementary Movie 1
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Explanation for the K function calculated from three different point patterns in the case of dispersed, random, and clustered points
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Supplementary Movie 2
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Drift corrected image sequence of 6 consecutive images of the Re-Bubpy captured by HAADF-STEM
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Supplementary Movie 3
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Drift corrected image sequence of 10 consecutive images of the backfilled Re-Bubpy captured by HAADF-STEM
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Supplementary Movie 4
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Drift corrected image sequence of 10 consecutive images of the Re-Phen captured by HAADF-STEM
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Supplementary Movie 5
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Drift corrected image sequence of 10 consecutive images of the backfilled Re-Phen captured by HAADF-STEM
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Supplementary Movie 6
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Drift corrected image sequence of 10 consecutive images of the Re-Phen functionalized for 15 minutes and captured by HAADF-STEM
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Supplementary Movie 7
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Drift corrected image sequence of 10 consecutive images of the Pt-Porph captured by HAADF-STEM
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Supplementary Movie 8
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Drift corrected image sequence of 10 consecutive images of the Re-Nonbpy captured by HAADF-STEM
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Supplementary Movie 9
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Drift corrected image sequence of 10 consecutive images of the Re-Bu2bpy captured by HAADF-STEM
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Supplementary Movie 10
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Drift corrected image sequence of 10 consecutive images of the Re-Etbpy captured by HAADF-STEM
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Supplementary Movie 11
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Drift corrected image sequence of 10 consecutive images of the Re-Etbpy captured by HAADF-STEM at cryogenic temperature
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