Add to ORKGH2 is gaining attention as energy vector, particularly if produced from renewable sources. It may be produced through photoreforming of organic compounds that act as hole scavengers to improve hydrogen productivity with respect to direct water photosplitting. Methanol is used here as model molecule to investigate the effect of catalyst composition and of substrate concentration on photocatalytic activity. Simple catalysts formulations were selected, in order to propose an easily scalable technology with a poorly expensive material. TiO2 with different structure (anatase, rutile and a mixture of them) was used as semiconductor, doped with a small amount of Au (0.1 wt%) to improve the lifetime of photogenerated charges. A new photoreac...
TiO2 and 1% Au/TiO2 powders, synthesised by flame spray pyrolysis and possessing high specific surfa...
Here we report a sustainable process for photo-induced hydrogen production from aqueous solutions of...
The utilization of sacrificial reagents is one of the most common strategies to accelerate hydrogen ...
Productivity with respect to direct water photosplitting. Methanol is used here as model molecule to...
H2 is gaining attention as energy vector, particularly if produced from renewable sources.It may be ...
The photocatalytic production of hydrogen from water solutions has been thoroughly investigated in r...
The photocatalytic production of hydrogen from water solutions has been investigated, either in a re...
Hydrogen gas is a clean burning fuel that has potential applications in stationary and mobile power ...
The photocatalytic production of hydrogen by methanol steam reforming was studied over a series of p...
We have examined the reforming of methanol and CO on Pd/P25 TiO2 catalysts for hydrogen production, ...
The production of hydrogen through photoreforming of aqueous solutions of organic compounds is consi...
The photocatalytic production of hydrogen from water using solar energy is potentially a clean and r...
The photocatalytic, ambient temperature, reforming of oxy-hydrocarbons, used to generate hydrogen ga...
Hydrogen is considered a future energy carrier for clean and sustainable technology. Photocatalytic ...
Introduction The direct use of solar energy is intriguing for H2 production. The direct photocatalyt...
TiO2 and 1% Au/TiO2 powders, synthesised by flame spray pyrolysis and possessing high specific surfa...
Here we report a sustainable process for photo-induced hydrogen production from aqueous solutions of...
The utilization of sacrificial reagents is one of the most common strategies to accelerate hydrogen ...
Productivity with respect to direct water photosplitting. Methanol is used here as model molecule to...
H2 is gaining attention as energy vector, particularly if produced from renewable sources.It may be ...
The photocatalytic production of hydrogen from water solutions has been thoroughly investigated in r...
The photocatalytic production of hydrogen from water solutions has been investigated, either in a re...
Hydrogen gas is a clean burning fuel that has potential applications in stationary and mobile power ...
The photocatalytic production of hydrogen by methanol steam reforming was studied over a series of p...
We have examined the reforming of methanol and CO on Pd/P25 TiO2 catalysts for hydrogen production, ...
The production of hydrogen through photoreforming of aqueous solutions of organic compounds is consi...
The photocatalytic production of hydrogen from water using solar energy is potentially a clean and r...
The photocatalytic, ambient temperature, reforming of oxy-hydrocarbons, used to generate hydrogen ga...
Hydrogen is considered a future energy carrier for clean and sustainable technology. Photocatalytic ...
Introduction The direct use of solar energy is intriguing for H2 production. The direct photocatalyt...
TiO2 and 1% Au/TiO2 powders, synthesised by flame spray pyrolysis and possessing high specific surfa...
Here we report a sustainable process for photo-induced hydrogen production from aqueous solutions of...
The utilization of sacrificial reagents is one of the most common strategies to accelerate hydrogen ...