Add to ORKGWe report the effect of metal-oxide interfaces on CO oxidation catalytic activity with inverse TiO2-nanostructured Au catalysts. The inverse nanocatalysts were prepared by depositing TiO2via the liquid-phase immersion method on electrochemically synthesized Au nanostructure supports. The catalytic performance for CO oxidation was investigated using various amounts of Ti (i.e. 0.1-1.0 wt%) on two different morphologies of Au nanostructures (i.e. nanoporous and nanorod). In comparing the different Au morphologies, we found an overall higher TOF and lower activation energy for the TiO2/nanoporous Au than those for the TiO2/nanorod Au. In addition, the CO oxidation activity increased as the Ti content increased up to 0.5 wt% probably due to act...
Gold catalysts were prepared on TiO2 supports of different phase structures (i.e., anatase, rutile a...
Although highly dispersed Au catalysts with Au nanoparticles (NPs) of a few nanometers in diameter a...
TiO<sub>2</sub>-supported gold nanoparticles exhibit surprising catalytic activity for oxidation rea...
This work aims to understand the influence of TiO2 surface structure in Au/TiO2 catalysts on CO oxid...
Engineering metal–oxide interfaces in TiO2/nanoporous (np) Au inverse catalysts results in enhanceme...
The surface properties of oxidic supports and their interaction with the supported metals play criti...
A series of Au/TiO<sub>2</sub> catalysts for CO oxidation with same Au loading but different Au nano...
The interfacial perimeter of gold nanocatalysts is popularly viewed as the active sites for a number...
Gold supported titania nano-particle surfaces have been synthesised in order to understand supported...
We report results of a comprehensive study on the effect of bulk defects on the catalytic behavior o...
ABSTRACT: Density functional theory is used to determine the reaction mechanisms of CO oxidation and...
We address the question of the nature of Au NP activation and through a combination of experimental ...
Identifying the electronic behavior of metal-oxide interfaces is essential for understanding the ori...
This paper remarks the general correlations of the shape and crystallinity of titanium dioxide (TiO2...
The CO oxidation reaction has been studied on Au/TiO2 catalysts prepared by incipient wetness (IW) a...
Gold catalysts were prepared on TiO2 supports of different phase structures (i.e., anatase, rutile a...
Although highly dispersed Au catalysts with Au nanoparticles (NPs) of a few nanometers in diameter a...
TiO<sub>2</sub>-supported gold nanoparticles exhibit surprising catalytic activity for oxidation rea...
This work aims to understand the influence of TiO2 surface structure in Au/TiO2 catalysts on CO oxid...
Engineering metal–oxide interfaces in TiO2/nanoporous (np) Au inverse catalysts results in enhanceme...
The surface properties of oxidic supports and their interaction with the supported metals play criti...
A series of Au/TiO<sub>2</sub> catalysts for CO oxidation with same Au loading but different Au nano...
The interfacial perimeter of gold nanocatalysts is popularly viewed as the active sites for a number...
Gold supported titania nano-particle surfaces have been synthesised in order to understand supported...
We report results of a comprehensive study on the effect of bulk defects on the catalytic behavior o...
ABSTRACT: Density functional theory is used to determine the reaction mechanisms of CO oxidation and...
We address the question of the nature of Au NP activation and through a combination of experimental ...
Identifying the electronic behavior of metal-oxide interfaces is essential for understanding the ori...
This paper remarks the general correlations of the shape and crystallinity of titanium dioxide (TiO2...
The CO oxidation reaction has been studied on Au/TiO2 catalysts prepared by incipient wetness (IW) a...
Gold catalysts were prepared on TiO2 supports of different phase structures (i.e., anatase, rutile a...
Although highly dispersed Au catalysts with Au nanoparticles (NPs) of a few nanometers in diameter a...
TiO<sub>2</sub>-supported gold nanoparticles exhibit surprising catalytic activity for oxidation rea...