Add to ORKGFor the purpose of efficiently utilizing the renewable solar energy, it is of vital importance to understand the key factors that contribute to the performance merits for photocatalysis applications. The efficiencies toward photocatalytic water splitting were measured on three distinct immobilized titania nanostructures. Different trends in the nanostructure – water splitting efficiency relationship were observed, depending on the specific application mode being either photoelectrochemical cell (PEC) or direct heterogeneous reaction (DHR). Investigations were carried out to elucidate on how PEC and DHR benefit to a varying degree from the hydrothermal processing history, electronic properties, interface structures, and reactive facets of th...
Functional nanoscale interfaces that promote the transport of photoexcited charge carriers are funda...
This PhD thesis primarily involved the hierarchical assembly of immobilized TiO2-based epitaxial cry...
Due to the expected increases on energy demand in the near future, the development of new catalytic ...
For the purpose of efficiently utilizing the renewable solar energy, it is of vital importance to un...
For the purpose of efficiently utilizing the renewable solar energy, it is of vital importance to un...
Recent advances in the field of photoelectrochemical cells (PECs) applied to solar water and H2S spl...
Hydrogen gas is chemical fuel with high energy density, and represents a clean, renewable and carbon...
Looking at the current energy consumption globally, there is a high demand in the consumption of f...
Improving the efficiency of photocatalytic water splitting to produce hydrogen is currently a hot to...
he photocatalytic water splitting re-action is themost promisingprocess to convert photochemical ene...
Nano-engineered materials based on TiO2/Ti are proposed as suitable photo-catalysts in studies of no...
An efficient and economical technology for hydrogen production via solar water splitting in a newly ...
Conversion of energy from photons in sunlight to hydrogen through solar splitting of water is an imp...
Fossil fuels have been critical to the development of modern society, but concerns over pollution, e...
This PhD thesis primarily involved the hierarchical assembly of immobilized TiO2-based epitaxial cry...
Functional nanoscale interfaces that promote the transport of photoexcited charge carriers are funda...
This PhD thesis primarily involved the hierarchical assembly of immobilized TiO2-based epitaxial cry...
Due to the expected increases on energy demand in the near future, the development of new catalytic ...
For the purpose of efficiently utilizing the renewable solar energy, it is of vital importance to un...
For the purpose of efficiently utilizing the renewable solar energy, it is of vital importance to un...
Recent advances in the field of photoelectrochemical cells (PECs) applied to solar water and H2S spl...
Hydrogen gas is chemical fuel with high energy density, and represents a clean, renewable and carbon...
Looking at the current energy consumption globally, there is a high demand in the consumption of f...
Improving the efficiency of photocatalytic water splitting to produce hydrogen is currently a hot to...
he photocatalytic water splitting re-action is themost promisingprocess to convert photochemical ene...
Nano-engineered materials based on TiO2/Ti are proposed as suitable photo-catalysts in studies of no...
An efficient and economical technology for hydrogen production via solar water splitting in a newly ...
Conversion of energy from photons in sunlight to hydrogen through solar splitting of water is an imp...
Fossil fuels have been critical to the development of modern society, but concerns over pollution, e...
This PhD thesis primarily involved the hierarchical assembly of immobilized TiO2-based epitaxial cry...
Functional nanoscale interfaces that promote the transport of photoexcited charge carriers are funda...
This PhD thesis primarily involved the hierarchical assembly of immobilized TiO2-based epitaxial cry...
Due to the expected increases on energy demand in the near future, the development of new catalytic ...