Ulf Tritthart scite author profile

Production of atomic photochemical hydrogen under the action of light and its subsequent injection into transition metal oxides has yielded numerous interesting results. Here we report on the mechanism of the photo-induced hydrogen transfer between adsorbed organic molecules and the surface of highly disordered V(2)O(5) films. We have managed to carry out the photoinjection of hydrogen into the V(2)O(5) films at very low temperatures, which is very important both for investigations of the reaction mechanism and for the optical properties of the V(2)O(5) films. The photochemical reaction exhibits all features of proton-coupled electron transfer which is a basic mechanism for bioenergetics conversion. Second, the new possibility to carry out experiments at very low temperatures has yielded a new approach in investigations of the nature of color centers and of the giant "blue" shift of the fundamental absorption edge in the V(2)O(5) films both arising due to injection of hydrogen atoms.

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Ulf Tritthart

Photo-stimulated proton-coupled electron transfer in quasi-amorphous WO₃and MoO₃thin films

Low temperature photochromism in quasi-amorphous MoO3 films

The nature of the photochromism arising in the nanosized MoO3 films

Nature of the optical absorption band in amorphous HxWO3 thin films

Photoinjection of hydrogen and the nature of a giant shift of the fundamental absorption edge in highly disordered V2O5 films

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Ulf Tritthart

Photo-stimulated proton-coupled electron transfer in quasi-amorphous WO3and MoO3thin films

Low temperature photochromism in quasi-amorphous MoO3 films

The nature of the photochromism arising in the nanosized MoO3 films

Nature of the optical absorption band in amorphous HxWO3 thin films

Photoinjection of hydrogen and the nature of a giant shift of the fundamental absorption edge in highly disordered V2O5 films

Contact Info

Product

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Photo-stimulated proton-coupled electron transfer in quasi-amorphous WO₃and MoO₃thin films