Production of electricity by photoelectrochemical oxidation of ethanol in a PhotoFuelCell
M Antoniadou, P Lianos - Applied Catalysis B: Environmental, 2010 - Elsevier
Photocatalytic oxidation of ethanol was carried out in a non-biased photoelectrochemical
cell at high pH. The cell was made of two compartments separated by a silica frit, both filled …
cell at high pH. The cell was made of two compartments separated by a silica frit, both filled …
Photooxidation products of ethanol during photoelectrochemical operation using a nanocrystalline titania anode and a two compartment chemically biased cell
Production of hydrogen and/or electricity by photocatalytic treatment of aqueous ethanol
solutions has been investigated in a two compartment chemically biased …
solutions has been investigated in a two compartment chemically biased …
Photocatalytic oxidation of ethanol using undoped and Ru-doped titania: Acetaldehyde, hydrogen or electricity generation
Undoped and Ru-doped commercial nanocrystalline anatase has been studied as a
photocatalyst for photocatalytic oxidation of ethanol in three different cases: in the gas phase …
photocatalyst for photocatalytic oxidation of ethanol in three different cases: in the gas phase …
Hydrogen and electricity generation by photoelectrochemical decomposition of ethanol over nanocrystalline titania
M Antoniadou, P Bouras, N Strataki, P Lianos - International journal of …, 2008 - Elsevier
Photoelectrochemical decomposition of ethanol has been carried out in a two-electrode
chemically biased photoelectrochemical cell by employing commercial nanocrystalline …
chemically biased photoelectrochemical cell by employing commercial nanocrystalline …
Alcohol oxidation as alternative anode reactions paired with (photo) electrochemical fuel production reactions
Alcohol oxidation as alternative anode reactions paired with (photo)electrochemical fuel
production reactions | Nature Communications Skip to main content Thank you for visiting …
production reactions | Nature Communications Skip to main content Thank you for visiting …
Correlation between photoelectrochemical behaviour and photoelectrocatalytic activity and scaling-up of P25-TiO2 electrodes
The use of TiO 2 electrodes may solve the two main drawbacks of photocatalytic processes:
i) the necessity of recovering the catalyst and ii) the low quantum yield in the use of the …
i) the necessity of recovering the catalyst and ii) the low quantum yield in the use of the …
Turning carbon dioxide into fuel concomitantly to the photoanode-driven process of organic pollutant degradation by photoelectrocatalysis
Abstract TiO 2 nanotubes (TiO 2 Nt) were modified with zirconium oxide and used as
photoanode-driven to oxidize benzyl alcohol concomitantly to the reduction of carbon …
photoanode-driven to oxidize benzyl alcohol concomitantly to the reduction of carbon …
Visible-light photocatalytic hydrogen production from ethanol–water mixtures using a Pt–CdS–TiO2 photocatalyst
Hydrogen was produced by photocatalytic treatment of water–ethanol mixtures.
Nanocrystalline titania films, made of commercial Degussa P25, were deposited on …
Nanocrystalline titania films, made of commercial Degussa P25, were deposited on …
Photoelectrocatalytic Hydrogen Production Using a TiO2/WO3 Bilayer Photocatalyst in the Presence of Ethanol as a Fuel
Photoelectrocatalytic hydrogen production was studied by using a photoelectrochemical cell
where the photoanode was made by depositing on FTO electrodes either a nanoparticulate …
where the photoanode was made by depositing on FTO electrodes either a nanoparticulate …
Near Ultraviolet and Visible light photoelectrochemical degradation of organic substances producing electricity and hydrogen
M Antoniadou, P Lianos - Journal of Photochemistry and Photobiology A …, 2009 - Elsevier
A two-compartment, chemically biased photoelectrochemical cell was used to photodegrade
several organic substances and produce electricity and hydrogen. The photoanode of the …
several organic substances and produce electricity and hydrogen. The photoanode of the …