In a combined experimental and theoretical 2D-IR and pump-probe study we determine how ultrafast solvent motions govern the vibrational dynamics of the hydrated proton and the key role played by the underlying proton potential
Water, one of the classical elements of ancient Greece and China, is a ubiquitous molecule because o...
Proton transfer in water is ubiquitous and a critical elementary event that, via proton hopping betw...
We investigate the structure and dynamics of proton solvation structures in mixed water/dimethyl sul...
In a combined experimental and theoretical 2D-IR and pump-probe study we determine how ultrafast sol...
Protons (H+) are the most abundant cations in chemical processes. Proton itself is a superacid and i...
The excess proton (H+) in aqueous environment, elusive in its structure and local surrounding, has b...
Aqueous proton transport involves the ultrafast interconversion of hydrated proton species that are ...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Chemistry, 2013.Vita. Cataloged fro...
In this thesis the dynamics of water and hydrated protons in confinement has been studied using nonl...
We have studied the influence of excess protons on the vibrational energy relaxation of the O-H and ...
The aqueous proton is one of the fundamental species of aqueous chemistry, but a clear picture of it...
Das Überschussproton (H+) in wässriger Umgebung, schwer fassbar in seiner Struktur und seinem lokal...
The solvation structure of protons in aqueous media is highly relevant to electric properties and to...
The theoretical basis for linking spectral signatures of hydrated excess protons with microscopic pr...
It is generally accepted that the anomalous diffusion of the aqueous hydroxide ion results from its ...
Water, one of the classical elements of ancient Greece and China, is a ubiquitous molecule because o...
Proton transfer in water is ubiquitous and a critical elementary event that, via proton hopping betw...
We investigate the structure and dynamics of proton solvation structures in mixed water/dimethyl sul...
In a combined experimental and theoretical 2D-IR and pump-probe study we determine how ultrafast sol...
Protons (H+) are the most abundant cations in chemical processes. Proton itself is a superacid and i...
The excess proton (H+) in aqueous environment, elusive in its structure and local surrounding, has b...
Aqueous proton transport involves the ultrafast interconversion of hydrated proton species that are ...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Chemistry, 2013.Vita. Cataloged fro...
In this thesis the dynamics of water and hydrated protons in confinement has been studied using nonl...
We have studied the influence of excess protons on the vibrational energy relaxation of the O-H and ...
The aqueous proton is one of the fundamental species of aqueous chemistry, but a clear picture of it...
Das Überschussproton (H+) in wässriger Umgebung, schwer fassbar in seiner Struktur und seinem lokal...
The solvation structure of protons in aqueous media is highly relevant to electric properties and to...
The theoretical basis for linking spectral signatures of hydrated excess protons with microscopic pr...
It is generally accepted that the anomalous diffusion of the aqueous hydroxide ion results from its ...
Water, one of the classical elements of ancient Greece and China, is a ubiquitous molecule because o...
Proton transfer in water is ubiquitous and a critical elementary event that, via proton hopping betw...
We investigate the structure and dynamics of proton solvation structures in mixed water/dimethyl sul...
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