Add to ORKGStudies of the thermal and photocatalytic properties of single crystal materials have proven to be useful in elucidating how surface structure influences photocatalytic activity for a range of reactions. While the use of well-defined single-crystal surfaces as model photocatalysts has many advantages, this approach also has some limitations since they do not allow one to study cooperative effects between different exposed crystal planes and how preferential migration of photogenerated charge carriers to different surfaces influences activity. To overcome these limitations while still using materials with well-defined surfaces, the research described in this dissertation seeks to understand the relationships between nanostructure and the the...
One of the most fundamental aspects of the heterogeneous catalysis field is the manipulation of the ...
This work systematically investigated the relationship between structure, morphology, photoelectroch...
Titanium dioxide is a widely adopted compound in the field of nanomaterials for manifold application...
Studies of the thermal and photocatalytic properties of single crystal materials have proven to be u...
Studies of the thermal and photocatalytic properties of single crystal materials have proven to be u...
ABSTRACT BRIDGING THE MATERIALS GAP IN CATALYSIS: REACTIVITY STUDIES OF NANOSTRUCTURED TITANIA David...
Surface science studies of defect-free, single-crystal model catalysts have provided vital knowledge...
In this study, the impact of supported Pt particles on the thermal and photocatalytic activity of we...
The photocatalytic (PC) performance of titanium dioxide (TiO2) nanoparticles strongly depends on the...
This body of work investigates titanium dioxide model catalysts with an increasing complexity of des...
The past decades, photocatalysis has emerged as a powerful technology for pollution abatement and en...
Despite the recent synthesis and identification of a diverse set of new nanophotocatalysts that has...
Decahedral anatase titanium(IV) oxide (TiO2) with {1 0 1} and {0 0 1} exposed crystal faces was prep...
Understanding structural effects and reaction mechanisms of photocatalysts is of great interest and ...
Titanium dioxide is a very important semiconductor with a high potential for applications in photoca...
One of the most fundamental aspects of the heterogeneous catalysis field is the manipulation of the ...
This work systematically investigated the relationship between structure, morphology, photoelectroch...
Titanium dioxide is a widely adopted compound in the field of nanomaterials for manifold application...
Studies of the thermal and photocatalytic properties of single crystal materials have proven to be u...
Studies of the thermal and photocatalytic properties of single crystal materials have proven to be u...
ABSTRACT BRIDGING THE MATERIALS GAP IN CATALYSIS: REACTIVITY STUDIES OF NANOSTRUCTURED TITANIA David...
Surface science studies of defect-free, single-crystal model catalysts have provided vital knowledge...
In this study, the impact of supported Pt particles on the thermal and photocatalytic activity of we...
The photocatalytic (PC) performance of titanium dioxide (TiO2) nanoparticles strongly depends on the...
This body of work investigates titanium dioxide model catalysts with an increasing complexity of des...
The past decades, photocatalysis has emerged as a powerful technology for pollution abatement and en...
Despite the recent synthesis and identification of a diverse set of new nanophotocatalysts that has...
Decahedral anatase titanium(IV) oxide (TiO2) with {1 0 1} and {0 0 1} exposed crystal faces was prep...
Understanding structural effects and reaction mechanisms of photocatalysts is of great interest and ...
Titanium dioxide is a very important semiconductor with a high potential for applications in photoca...
One of the most fundamental aspects of the heterogeneous catalysis field is the manipulation of the ...
This work systematically investigated the relationship between structure, morphology, photoelectroch...
Titanium dioxide is a widely adopted compound in the field of nanomaterials for manifold application...