2023
DOI: 10.1021/cbmi.3c00075
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Getting the Most Out of Fluorogenic Probes: Challenges and Opportunities in Using Single-Molecule Fluorescence to Image Electro- and Photocatalysis

Meikun Shen,
William H. Rackers,
Bryce Sadtler

Abstract: Single-molecule fluorescence microscopy enables the direct observation of individual reaction events at the surface of a catalyst. It has become a powerful tool to image in real time both intraand interparticle heterogeneity among different nanoscale catalyst particles. Single-molecule fluorescence microscopy of heterogeneous catalysts relies on the detection of chemically activated fluorogenic probes that are converted from a nonfluorescent state into a highly fluorescent state through a reaction mediated at … Show more

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Cited by 7 publications
(4 citation statements)
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References 273 publications
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“…137 For direct oxidation, holes are transported from the semiconductor interior to the semiconductor–electrolyte interface. 138,139 However, for indirect oxidation, holes are consumed by water oxidation and generate ROSs such as hydroxyl radical and superoxide anion, which further degrade the micropollutants (Fig. 9d).…”
Section: Semiconductor Nanomaterialsmentioning
confidence: 99%
“…137 For direct oxidation, holes are transported from the semiconductor interior to the semiconductor–electrolyte interface. 138,139 However, for indirect oxidation, holes are consumed by water oxidation and generate ROSs such as hydroxyl radical and superoxide anion, which further degrade the micropollutants (Fig. 9d).…”
Section: Semiconductor Nanomaterialsmentioning
confidence: 99%
“…Single molecule FLM can reveal structure–property relationship of single particles by imaging reactants/products and surface reaction hot spots of catalytic reactions at the level of an individual molecule/particle with nanometer precision. , Such information could be utilized for designing and developing high performance catalysts. For example, Xu and colleagues revealed facet-/shape-dependent catalytic activities of single Pd NPs using single FLM .…”
Section: Single Particle Detection/imagingmentioning
confidence: 99%
“…[57][58][59][60] Besides corrosion detection in coatings and bulk solutions, fluorescent sensors have been applied in single-molecule fluorescence microscopy to image and quantify noncorrosive electrochemical reactions, such as electro-and photocatalysis. 61,62 However, to the best of our knowledge, most studies regarding fluorescence-based corrosion sensors primarily provide a binary "yes" or "no" assessment of corrosion, rather than a quantitative evaluation.…”
Section: Introductionmentioning
confidence: 99%