Platinum is a nearly perfect catalyst for the hydrogen evolution reaction, and its high activity has conventionally been explained by its close-to-thermoneutral hydrogen binding energy (G~0). However, many candidate non-precious metal catalysts bind hydrogen with similar strengths, but exhibit orders-of-magnitude lower activity for this reaction. In this study, we employ electronic structure methods that allow fully potential-dependent reaction barriers to be calculated, in order to develop a complete working picture of hydrogen evolution on platinum. Through the resulting ab initio microkinetic models, we assess the mechanistic origins of Pt's high activity. Surprisingly, we find that the G~0 hydrogen atoms are kinetically inert, and that ...
R.K. acknowledges the School of Chemical Engineering of Aalto University for funding in the form of ...
Transition metal dichalcogenides are cheap and earth-abundant candidates for the replacement of prec...
The mechanism of the hydrogen evolution reaction, although intensively studied for more than a centu...
The hydrogen evolution reaction (HER) has been examined on a variety of Pt and Pt-group metal surfac...
The hydrogen evolution reaction (HER) has been examined on a variety of Pt and Pt-group metal surfac...
The hydrogen evolution reaction (HER) has been examined on a variety of Pt and Pt-group metal surfac...
We have known for over 200 years that hydrogen undergoes rapid oxidation to water on Pt catalysts; y...
Abstract Hydrogen is a highly efficient and clean renewable energy source and water splitting throug...
Hydrogen evolution on rotating platinum electrode has been measured in the presence of Pb, Tl and Cd...
Carbon monoxide is widely known to poison Pt during heterogeneous catalysis owing to its strong dono...
For small Pt nanoparticles (NPs), catalytic activity is, as observed, adversely affected by size in ...
In this work, we study how the cation identity and concentration alter the kinetics of the hydrogen ...
Hydrogen evolution on rotating platinum electrode has been measured in the presence of Pb, Tl and Cd...
Carbon monoxide is widely known to poison Pt during heterogeneous catalysis owing to its strong dono...
Despite much study the mechanism of the hydrogen evolution reaction (HER) on Pt is still controversi...
R.K. acknowledges the School of Chemical Engineering of Aalto University for funding in the form of ...
Transition metal dichalcogenides are cheap and earth-abundant candidates for the replacement of prec...
The mechanism of the hydrogen evolution reaction, although intensively studied for more than a centu...
The hydrogen evolution reaction (HER) has been examined on a variety of Pt and Pt-group metal surfac...
The hydrogen evolution reaction (HER) has been examined on a variety of Pt and Pt-group metal surfac...
The hydrogen evolution reaction (HER) has been examined on a variety of Pt and Pt-group metal surfac...
We have known for over 200 years that hydrogen undergoes rapid oxidation to water on Pt catalysts; y...
Abstract Hydrogen is a highly efficient and clean renewable energy source and water splitting throug...
Hydrogen evolution on rotating platinum electrode has been measured in the presence of Pb, Tl and Cd...
Carbon monoxide is widely known to poison Pt during heterogeneous catalysis owing to its strong dono...
For small Pt nanoparticles (NPs), catalytic activity is, as observed, adversely affected by size in ...
In this work, we study how the cation identity and concentration alter the kinetics of the hydrogen ...
Hydrogen evolution on rotating platinum electrode has been measured in the presence of Pb, Tl and Cd...
Carbon monoxide is widely known to poison Pt during heterogeneous catalysis owing to its strong dono...
Despite much study the mechanism of the hydrogen evolution reaction (HER) on Pt is still controversi...
R.K. acknowledges the School of Chemical Engineering of Aalto University for funding in the form of ...
Transition metal dichalcogenides are cheap and earth-abundant candidates for the replacement of prec...
The mechanism of the hydrogen evolution reaction, although intensively studied for more than a centu...
Add to ORKG