The homogeneous catalytic system, based on water-soluble ruthenium(II)-TPPTS catalyst (TPPTS=meta-trisulfonated triphenylphosphine), selectively decomposes HCOOH into H2 and CO2 in aqueous solution. Although this reaction results in only two gas products, heterogeneous catalysts could be advantageous for recycling, especially for dilute formic acid solutions, or for mobile, portable applications. Several approaches have been used to immobilize/solidify the homogeneous ruthenium-TPPTS catalyst based on ion exchange, coordination and physical absorption. The activity of the various heterogeneous catalysts for the decomposition of formic acid has been determined. These heterogenized catalysts offer the advantage of easy catalyst separation/rec...
Formic acid (FA) is considered as a potential durable energy carrier. It contains ~4.4 wt % of hydro...
Formic acid, containing 4.4 wt% of hydrogen, is a non-toxic liquid at ambient temperature and theref...
Formic acid (FA) is considered as a potential durable energy carrier. It contains ~4.4 wt % of hydro...
Carbon dioxide and the carbonates, the available natural C1 sources, can be easily hydrogenated into...
The main obstacles in the widespread use of hydrogen as energetic alternative to fossil fuels are st...
This year Mankind will release about 39 Gt carbon dioxide into the earth's atmosphere, where it acts...
Hydrogen holds the potential to be one of the major energy carriers for the future. However, a hydro...
Hydrogen gas is a storable form of chemical energy that could complement intermittent renewable ener...
The water-soluble ruthenium(II)–mTPPTS complex (mTPPTS= meta-trisulfonated triphenylphosphine) effic...
A major challenge in the face of increasing global energy demand is the development of alternative e...
Formic acid (FA) is considered as a potential durable energy carrier. It contains ~4.4 wt % of hydro...
Formic acid is decomposed to H<sub>2</sub> and CO<sub>2</sub> in the presence of RuCl<sub>3</sub> an...
Formic acid has recently been considered as one of the most promising hydrogen storage materials. Th...
Hydrogen utilization as a sustainable energy vector is of growing interest. We report herein a cyclo...
The valorization of carbon dioxide and its transformation into useful chemicals is essential as mank...
Formic acid (FA) is considered as a potential durable energy carrier. It contains ~4.4 wt % of hydro...
Formic acid, containing 4.4 wt% of hydrogen, is a non-toxic liquid at ambient temperature and theref...
Formic acid (FA) is considered as a potential durable energy carrier. It contains ~4.4 wt % of hydro...
Carbon dioxide and the carbonates, the available natural C1 sources, can be easily hydrogenated into...
The main obstacles in the widespread use of hydrogen as energetic alternative to fossil fuels are st...
This year Mankind will release about 39 Gt carbon dioxide into the earth's atmosphere, where it acts...
Hydrogen holds the potential to be one of the major energy carriers for the future. However, a hydro...
Hydrogen gas is a storable form of chemical energy that could complement intermittent renewable ener...
The water-soluble ruthenium(II)–mTPPTS complex (mTPPTS= meta-trisulfonated triphenylphosphine) effic...
A major challenge in the face of increasing global energy demand is the development of alternative e...
Formic acid (FA) is considered as a potential durable energy carrier. It contains ~4.4 wt % of hydro...
Formic acid is decomposed to H<sub>2</sub> and CO<sub>2</sub> in the presence of RuCl<sub>3</sub> an...
Formic acid has recently been considered as one of the most promising hydrogen storage materials. Th...
Hydrogen utilization as a sustainable energy vector is of growing interest. We report herein a cyclo...
The valorization of carbon dioxide and its transformation into useful chemicals is essential as mank...
Formic acid (FA) is considered as a potential durable energy carrier. It contains ~4.4 wt % of hydro...
Formic acid, containing 4.4 wt% of hydrogen, is a non-toxic liquid at ambient temperature and theref...
Formic acid (FA) is considered as a potential durable energy carrier. It contains ~4.4 wt % of hydro...