Add to ORKGThere are currently great needs to develop low-cost inorganic materials that can efficiently perform solar water splitting as photoelectrolysis of water into hydrogen and oxygen has significant potential to provide clean energy. We investigate the Si/TiO2 nanowire heterostructures to determine their potential for the photooxidation of water. We observed that highly dense Si/TiO2 core/shell nanowire arrays enhanced the photocurrent by 2.5 times compared to planar Si/TiO2 structure due to their low reflectance and high surface area. We also showed that n-Si/n-TiO2 nanowire arrays exhibited a larger photocurrent and open circuit voltage than p-Si/n-TiO2 nanowires due to a barrier at the heterojunction
Tandem-junction microwire array photoelectrodes have been fabricated by coating np^+-Si radial homoj...
For the sake of utilizing the light-harvesting ability of Si in pollution control, the p-silicon nan...
We report significantly improved silicon nanowire/TiO<sub>2</sub> n<sup>+</sup>–n heterojunction sol...
There are currently great needs to develop low-cost inorganic materials that can efficiently perform...
Photolysis of water with semiconductor materials has been investigated intensely as a clean and rene...
Photolysis of water with semiconductor materials has been investigated intensely as a clean and rene...
The porous silicon as substrate material was prepared by metal-assisted chemical etching (MACE) meth...
It is believed that the solar energy is the ultimate clean energy source to meet global human energy...
International audienceConcerning the eco problem and energy crisis we are facing now, the energy har...
Highly oriented epitaxial rutile titanium dioxide (TiO2) nanowire arrays have been hydrothermally gr...
In this study, we report the fabrication and characterization of a novel PEC tandem cell, consisting...
Sustainable and efficient conversion of solar energy to transportable green energy and storable fuel...
Photo-electrochemical (PEC) water-splitting offers a promising way for clean, low-cost and environme...
The three-dimensional (3D) hierarchical nanostructure is one of the promising candidates for high pe...
Tandem-junction microwire array photoelectrodes have been fabricated by coating np^+-Si radial homoj...
Tandem-junction microwire array photoelectrodes have been fabricated by coating np^+-Si radial homoj...
For the sake of utilizing the light-harvesting ability of Si in pollution control, the p-silicon nan...
We report significantly improved silicon nanowire/TiO<sub>2</sub> n<sup>+</sup>–n heterojunction sol...
There are currently great needs to develop low-cost inorganic materials that can efficiently perform...
Photolysis of water with semiconductor materials has been investigated intensely as a clean and rene...
Photolysis of water with semiconductor materials has been investigated intensely as a clean and rene...
The porous silicon as substrate material was prepared by metal-assisted chemical etching (MACE) meth...
It is believed that the solar energy is the ultimate clean energy source to meet global human energy...
International audienceConcerning the eco problem and energy crisis we are facing now, the energy har...
Highly oriented epitaxial rutile titanium dioxide (TiO2) nanowire arrays have been hydrothermally gr...
In this study, we report the fabrication and characterization of a novel PEC tandem cell, consisting...
Sustainable and efficient conversion of solar energy to transportable green energy and storable fuel...
Photo-electrochemical (PEC) water-splitting offers a promising way for clean, low-cost and environme...
The three-dimensional (3D) hierarchical nanostructure is one of the promising candidates for high pe...
Tandem-junction microwire array photoelectrodes have been fabricated by coating np^+-Si radial homoj...
Tandem-junction microwire array photoelectrodes have been fabricated by coating np^+-Si radial homoj...
For the sake of utilizing the light-harvesting ability of Si in pollution control, the p-silicon nan...
We report significantly improved silicon nanowire/TiO<sub>2</sub> n<sup>+</sup>–n heterojunction sol...