Add to ORKGProton transfer in water is ubiquitous and a critical elementary event that, via proton hopping between water molecules, enables protons to diffuse much faster than other ions. The problem of the anomalous nature of proton transport in water was first identified by Grotthuss over 200 years ago. In spite of a vast amount of modern research effort, there are still many unanswered questions about proton transport in water. An experimental determination of the proton hopping time has remained elusive due to its ultrafast nature and the lack of direct experimental observables. Here, we use two-dimensional infrared spectroscopy to extract the chemical exchange rates between hydronium and water in acid solutions using a vibrational probe, methyl t...
Signatures of solvated excess protons in infrared difference absorption spectra, such as the continu...
It is generally accepted that the anomalous diffusion of the aqueous hydroxide ion results from its ...
Proton transfer is of fundamental importance to both biology and chemistry. Much is known about prot...
Proton transfer in water is ubiquitous and a critical elementary event that, via proton hopping betw...
The aqueous proton is one of the fundamental species of aqueous chemistry, but a clear picture of it...
The excess proton mobility in water has attracted scientific attention for more than a century. Deta...
Protons (H+) are the most abundant cations in chemical processes. Proton itself is a superacid and i...
The theoretical basis for linking spectral signatures of hydrated excess protons with microscopic pr...
We study the mechanism of proton transfer (PT) in the aqueous acid−base reaction between the photoac...
Aqueous proton transport involves the ultrafast interconversion of hydrated proton species that are ...
In a combined experimental and theoretical 2D-IR and pump-probe study we determine how ultrafast sol...
The excess proton mobility in water has attracted scientific attention for more than a century. Deta...
The Grotthuss mechanism explains the anomalously high proton mobility in water as a sequence of prot...
Reactive molecular dynamics simulations are performed to study proton transport in various aqueous s...
Molecular dynamics simulations have been performed to analyze microscopic details related to aqueous...
Signatures of solvated excess protons in infrared difference absorption spectra, such as the continu...
It is generally accepted that the anomalous diffusion of the aqueous hydroxide ion results from its ...
Proton transfer is of fundamental importance to both biology and chemistry. Much is known about prot...
Proton transfer in water is ubiquitous and a critical elementary event that, via proton hopping betw...
The aqueous proton is one of the fundamental species of aqueous chemistry, but a clear picture of it...
The excess proton mobility in water has attracted scientific attention for more than a century. Deta...
Protons (H+) are the most abundant cations in chemical processes. Proton itself is a superacid and i...
The theoretical basis for linking spectral signatures of hydrated excess protons with microscopic pr...
We study the mechanism of proton transfer (PT) in the aqueous acid−base reaction between the photoac...
Aqueous proton transport involves the ultrafast interconversion of hydrated proton species that are ...
In a combined experimental and theoretical 2D-IR and pump-probe study we determine how ultrafast sol...
The excess proton mobility in water has attracted scientific attention for more than a century. Deta...
The Grotthuss mechanism explains the anomalously high proton mobility in water as a sequence of prot...
Reactive molecular dynamics simulations are performed to study proton transport in various aqueous s...
Molecular dynamics simulations have been performed to analyze microscopic details related to aqueous...
Signatures of solvated excess protons in infrared difference absorption spectra, such as the continu...
It is generally accepted that the anomalous diffusion of the aqueous hydroxide ion results from its ...
Proton transfer is of fundamental importance to both biology and chemistry. Much is known about prot...