Add to ORKGElucidating the structure of the interface between natural (reduced) anatase TiO2 (101) and water is an essential step toward understanding the associated photoassisted water splitting mechanism. Here we present surface X-ray diffraction results for the room temperature interface with ultrathin and bulk water, which we explain by reference to density functional theory calculations. We find that both interfaces contain a 25:75 mixture of molecular H2O and terminal OH bound to titanium atoms along with bridging OH species in the contact layer. This is in complete contrast to the inert character of room temperature anatase TiO2 (101) in ultrahigh vacuum. A key difference between the ultrathin and bulk water interfaces is that in the latter wat...
The pivotal importance of TiO2 as a technological material involves most applications in an aqueous ...
The hydroxylation state of an oxide surface is a central property of its solid liquid interface and ...
The photocatalytic activity of TiO2 for water splitting has been known for decades, yet the adsorpti...
Elucidating the structure of the interface between natural (reduced) anatase TiO<sub>2</sub> (101) a...
The (011) termination of rutile TiO2 is reported to be particularly effective for photocatalysis. He...
Titanium dioxide is a promising candidate for photocatalytic H2 fuel production, and understanding w...
The (011) termination of rutile TiO2 is reported to be particularly effective for photocatalysis. He...
Surfaces and interfaces of titanium dioxide (TiO2) are investigated with scanning probe microscopy a...
International audienceThe interaction of water with TiO2 is crucial to many of its practical applica...
We report on the nature of water interactions with anatase TiO2 surfaces. TiO2 nanoparticles NPs , ...
The (011) termination of rutile TiO2 is reported to be particularly effective for photocatalysis. He...
The interaction of water with TiO2 is crucial to many of its practical applications, including photo...
We report on the nature of water interactions with anatase TiO2 surfaces. TiO2 nanoparticles (NPs), ...
The anatase TiO2(101) surface and its interaction with water is an important topic in oxide surface ...
X-ray photoelectron spectroscopy at ambient conditions of pressure (up to 1.5 Torr) and temperature ...
The pivotal importance of TiO2 as a technological material involves most applications in an aqueous ...
The hydroxylation state of an oxide surface is a central property of its solid liquid interface and ...
The photocatalytic activity of TiO2 for water splitting has been known for decades, yet the adsorpti...
Elucidating the structure of the interface between natural (reduced) anatase TiO<sub>2</sub> (101) a...
The (011) termination of rutile TiO2 is reported to be particularly effective for photocatalysis. He...
Titanium dioxide is a promising candidate for photocatalytic H2 fuel production, and understanding w...
The (011) termination of rutile TiO2 is reported to be particularly effective for photocatalysis. He...
Surfaces and interfaces of titanium dioxide (TiO2) are investigated with scanning probe microscopy a...
International audienceThe interaction of water with TiO2 is crucial to many of its practical applica...
We report on the nature of water interactions with anatase TiO2 surfaces. TiO2 nanoparticles NPs , ...
The (011) termination of rutile TiO2 is reported to be particularly effective for photocatalysis. He...
The interaction of water with TiO2 is crucial to many of its practical applications, including photo...
We report on the nature of water interactions with anatase TiO2 surfaces. TiO2 nanoparticles (NPs), ...
The anatase TiO2(101) surface and its interaction with water is an important topic in oxide surface ...
X-ray photoelectron spectroscopy at ambient conditions of pressure (up to 1.5 Torr) and temperature ...
The pivotal importance of TiO2 as a technological material involves most applications in an aqueous ...
The hydroxylation state of an oxide surface is a central property of its solid liquid interface and ...
The photocatalytic activity of TiO2 for water splitting has been known for decades, yet the adsorpti...