Spectroscopy and dynamics of the hydrated electron at the water/air interface
The hydrated electron, e – (aq) , has attracted much attention as a central species in radiation chemistry. However, much less is known about e – (aq) at the water/air surface, despite its fundamental role in electron transfer processes at interfaces. Using time-resolved electronic sum-frequency gen...
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Veröffentlicht in: | Nature communications 2024-01, Vol.15 (1), p.182-182, Article 182 |
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Format: | Artikel |
Sprache: | eng |
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Zusammenfassung: | The hydrated electron, e
–
(aq)
, has attracted much attention as a central species in radiation chemistry. However, much less is known about e
–
(aq)
at the water/air surface, despite its fundamental role in electron transfer processes at interfaces. Using time-resolved electronic sum-frequency generation spectroscopy, the electronic spectrum of e
–
(aq)
at the water/air interface and its dynamics are measured here, following photo-oxidation of the phenoxide anion. The spectral maximum agrees with that for bulk e
–
(aq)
and shows that the orbital density resides predominantly within the aqueous phase, in agreement with supporting calculations. In contrast, the chemistry of the interfacial hydrated electron differs from that in bulk water, with e
–
(aq)
diffusing into the bulk and leaving the phenoxyl radical at the surface. Our work resolves long-standing questions about e
–
(aq)
at the water/air interface and highlights its potential role in chemistry at the ubiquitous aqueous interface.
Hydrated electrons at the water/air interface participate in natural and synthetic processes, but investigation of their properties remains challenging. Here the authors show that most of their electron density is solvated below the dividing surface and solvates into the bulk in around 10 picoseconds, leaving its phenoxyl radical source at the interface. |
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ISSN: | 2041-1723 2041-1723 |
DOI: | 10.1038/s41467-023-44441-2 |