The “alchemy of water,” i.e., turning water into fuel (such as hydrogen) with sunlight, is an exciting prospect for sustainable energy. In a recent Chem issue, Atta et al. (2018) developed plasmonic-TiO2 nanostructures that bring photocatalytic water splitting one step closer to reality
This work shows the enhancement of the visible photocatalytic activity of TiO2 NPs film using the lo...
A new type of nanocomposites containing titania and gold were prepared via the coupling between exfo...
Photocatalysis is a process by which materials can transfer light energy into chemical energy in the...
© 2018 Elsevier Inc. The “alchemy of water,” i.e., turning water into fuel (such as hydrogen) with s...
We found that plasmonic Au particles on titanium(IV) oxide (TiO2) act as a visible-light-driven phot...
[Introduction] One of the most appealing way to develop clean energy and promote a low-carbon econom...
Light-powered applications are attracting increasing attention in the rapidly developing field of na...
International audienceThis paper reports the synergetic effects of UV and visible light irradiation ...
International audienceThis paper reports the synergetic effects of UV and visible light irradiation ...
Photoelectrochemical (PEC) water splitting using solar energy has attracted great attention for gene...
Due to the expected increases on energy demand in the near future, the development of new catalytic ...
Photocatalysis holds great promise for sustainable water treatment due to the generation of reactive...
he photocatalytic water splitting re-action is themost promisingprocess to convert photochemical ene...
Photocatalysis holds great promise for sustainable water treatment due to the generation of reactive...
Constructing plasmonic-semiconductor nanoarchitecture provides a photocatalytic platform for enhanci...
This work shows the enhancement of the visible photocatalytic activity of TiO2 NPs film using the lo...
A new type of nanocomposites containing titania and gold were prepared via the coupling between exfo...
Photocatalysis is a process by which materials can transfer light energy into chemical energy in the...
© 2018 Elsevier Inc. The “alchemy of water,” i.e., turning water into fuel (such as hydrogen) with s...
We found that plasmonic Au particles on titanium(IV) oxide (TiO2) act as a visible-light-driven phot...
[Introduction] One of the most appealing way to develop clean energy and promote a low-carbon econom...
Light-powered applications are attracting increasing attention in the rapidly developing field of na...
International audienceThis paper reports the synergetic effects of UV and visible light irradiation ...
International audienceThis paper reports the synergetic effects of UV and visible light irradiation ...
Photoelectrochemical (PEC) water splitting using solar energy has attracted great attention for gene...
Due to the expected increases on energy demand in the near future, the development of new catalytic ...
Photocatalysis holds great promise for sustainable water treatment due to the generation of reactive...
he photocatalytic water splitting re-action is themost promisingprocess to convert photochemical ene...
Photocatalysis holds great promise for sustainable water treatment due to the generation of reactive...
Constructing plasmonic-semiconductor nanoarchitecture provides a photocatalytic platform for enhanci...
This work shows the enhancement of the visible photocatalytic activity of TiO2 NPs film using the lo...
A new type of nanocomposites containing titania and gold were prepared via the coupling between exfo...
Photocatalysis is a process by which materials can transfer light energy into chemical energy in the...
DOI
Add to ORKG