Operando Laboratory X-ray Absorption Spectroscopy and UV–Vis Study of Pt/TiO[sub.2] Photocatalysts during Photodeposition and Hydrogen Evolution Reactions

Photocatalytic hydrogen (H[sub.2]) production is a promising route for alternative energetics. Understanding structure-activity relationships is a crucial step towards the rational design of photocatalysts, which requires the application of operando spectroscopy under relevant working conditions. We...

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Bibliographic Details
Published in:Catalysts 2023-02, Vol.13 (2)
Main Authors: Kozyr, Elizaveta G, Njoroge, Peter N, Chapek, Sergei V, Shapovalov, Viktor V, Skorynina, Alina A, Pnevskaya, Anna Yu, Bulgakov, Alexey N, Soldatov, Alexander V, Pellegrino, Francesco, Groppo, Elena, Bordiga, Silvia, Mino, Lorenzo, Bugaev, Aram L
Format: Article
Language:English
Subjects:
Hydrogen
Radiation
Spectrum analysis
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Summary:Photocatalytic hydrogen (H[sub.2]) production is a promising route for alternative energetics. Understanding structure-activity relationships is a crucial step towards the rational design of photocatalysts, which requires the application of operando spectroscopy under relevant working conditions. We performed an operando investigation on a catalytic system during the photodeposition of Pt on TiO[sub.2] and photostimulated H[sub.2] production, using simultaneous laboratory X-ray absorption spectroscopy (XAS), UV-Vis spectroscopy, and mass spectrometry. XAS showed a progressive increase in Pt fluorescence for Pt deposited on TiO[sub.2] for over an hour, which is correlated with the signal of the produced H[sub.2]. The final Pt/TiO[sub.2] catalyst contained Pt(0) particles. The electronic features corresponding to the Pt[sup.4+] species in the UV-Vis spectrum of the solution disappear as soon as UV radiation is applied in the presence of formic acid, which acts as a hole scavenger, resulting in the presence of Pt(0) particles in solution.
ISSN:2073-4344
2073-4344
DOI:10.3390/catal13020414