Add to ORKGFormic acid (HCOOH) is a convenient hydrogen carrier in fuel cells designed for portable use. Recent studies have shown that HCOOH decomposition is catalyzed with Ru-based complexes in the aqueous phase at near-ambient temperatures. HCOOH decomposition reactions are used frequently to probe the effects of alloying and cluster size and of geometric and electronic factors in catalysis. These studies have concluded that Pt is the most active metal for HCOOH decomposition, at least as large crystallites and extended surfaces. The identity and oxidation state of surface metal atoms influence the relative rates of dehydrogenation (HCOOH {yields} H{sub 2} + CO{sub 2}) and dehydration (HCOOH {yields} H{sub 2}O + CO) routes, a selectivity requiremen...
Formic acid (FA) is considered as a potential durable energy carrier. It contains ~4.4 wt % of hydro...
Formic acid (FA) is considered as a potential durable energy carrier. It contains ~4.4 wt % of hydro...
Formic acid (FA) is considered as a potential durable energy carrier. It contains ~4.4 wt % of hydro...
Formic acid is a potential hydrogen storage molecule which dehydrogenates to form CO<sub>2</sub> and...
The need for sustainable energy sources is now more urgent than ever, and hydrogen is significant in...
Formic acid can undergo dehydration or dehydrogenation with variable selectivity over a range of met...
Formic acid (FA) possesses a high volumetric concentration of H2 (53 g L-1 ). Moreover, it can be ea...
Formic acid (FA) has tremendous potential as a safe and convenient source of hydrogen for sustainabl...
Formic acid (FA) possesses a high volumetric concentration of H2 (53 g L-1 ). Moreover, it can be ea...
The dehydrogenation of formic acid permits the production of hydrogen virtually free of carbon monox...
Formic acid (FA) possesses a high volumetric concentration of H2 (53 g L-1 ). Moreover, it can be ea...
Formic acid has recently been considered as one of the most promising hydrogen storage materials. Th...
Pd–Au catalysts have shown exceptional performance for selective hydrogen production via HCOOH decom...
The steady-state rate of decomposition of formic acid on Ru(001) has been measured as a function of...
The steady-state rate of decomposition of formic acid on Ru(001) has been measured as a function of...
Formic acid (FA) is considered as a potential durable energy carrier. It contains ~4.4 wt % of hydro...
Formic acid (FA) is considered as a potential durable energy carrier. It contains ~4.4 wt % of hydro...
Formic acid (FA) is considered as a potential durable energy carrier. It contains ~4.4 wt % of hydro...
Formic acid is a potential hydrogen storage molecule which dehydrogenates to form CO<sub>2</sub> and...
The need for sustainable energy sources is now more urgent than ever, and hydrogen is significant in...
Formic acid can undergo dehydration or dehydrogenation with variable selectivity over a range of met...
Formic acid (FA) possesses a high volumetric concentration of H2 (53 g L-1 ). Moreover, it can be ea...
Formic acid (FA) has tremendous potential as a safe and convenient source of hydrogen for sustainabl...
Formic acid (FA) possesses a high volumetric concentration of H2 (53 g L-1 ). Moreover, it can be ea...
The dehydrogenation of formic acid permits the production of hydrogen virtually free of carbon monox...
Formic acid (FA) possesses a high volumetric concentration of H2 (53 g L-1 ). Moreover, it can be ea...
Formic acid has recently been considered as one of the most promising hydrogen storage materials. Th...
Pd–Au catalysts have shown exceptional performance for selective hydrogen production via HCOOH decom...
The steady-state rate of decomposition of formic acid on Ru(001) has been measured as a function of...
The steady-state rate of decomposition of formic acid on Ru(001) has been measured as a function of...
Formic acid (FA) is considered as a potential durable energy carrier. It contains ~4.4 wt % of hydro...
Formic acid (FA) is considered as a potential durable energy carrier. It contains ~4.4 wt % of hydro...
Formic acid (FA) is considered as a potential durable energy carrier. It contains ~4.4 wt % of hydro...