Add to ORKGHigh‐resolution mass spectra of helium nanodroplets doped with hydrogen or deuterium reveal that copious amounts of helium can be bound to H+, H2+, H3+, and larger hydrogen‐cluster ions. All conceivable HenHx+ stoichiometries are identified if their mass is below the limit of ≈120 u set by the resolution of the spectrometer. Anomalies in the ion yields of HenHx+ for x=1, 2, or 3, and n≤30 reveal particularly stable cluster ions. Our results for HenH1+ are consistent with conclusions drawn from previous experimental and theoretical studies which were limited to smaller cluster ions. The HenH3+ series exhibits a pronounced anomaly at n=12 which was outside the reliable range of earlier experiments. Contrary to findings reported for other diat...
11 pags., 13 figs.Solvation of Cs+ ions inside helium droplets has been investigated both experiment...
The electron-driven ionization of helium droplets doped with pure methanol and ethanol clusters has ...
We investigate the HM+–He complexes (M = Group 2 metal) using quantum chemistry. Equilibrium geometr...
Neutral hydrogen clusters are grown in ultracold helium nanodroplets by successive pickup of hydroge...
Helium nanodroplets are doped with neon and ionized by electrons. The size-dependence of the ion abu...
Helium nanodroplets doped with argon, krypton, or xenon are ionized by electrons and analyzed in a m...
We review the solvation of atomic, molecular or cluster ions in HNDs. After briefly discussing the p...
We report the first experimental observation of negatively charged hydrogen and deuterium cluster i...
International audienceContext. Helium, the second most abundant element in the Universe, with a rela...
The structures and the vibrational dynamics of the complexes HHe are investigated experimentally (vi...
Ion–molecule reactions between clusters of H₂/D₂ and O₂ in liquid helium nanodroplets were initiated...
We use a novel technique to solvate silver cations in small clusters of noble gases. The technique i...
Cationic species with noble gas (Ng)-hydrogen bonds play a major role in the gas-phase ion chemistry...
In a recent report, Uggerud and co-workers (A. Krapp et al., Chem. Eur. J. 2008. 14, 4028) proposed ...
We report the results of an experimental study of electron ionization of large helium nanodroplets d...
11 pags., 13 figs.Solvation of Cs+ ions inside helium droplets has been investigated both experiment...
The electron-driven ionization of helium droplets doped with pure methanol and ethanol clusters has ...
We investigate the HM+–He complexes (M = Group 2 metal) using quantum chemistry. Equilibrium geometr...
Neutral hydrogen clusters are grown in ultracold helium nanodroplets by successive pickup of hydroge...
Helium nanodroplets are doped with neon and ionized by electrons. The size-dependence of the ion abu...
Helium nanodroplets doped with argon, krypton, or xenon are ionized by electrons and analyzed in a m...
We review the solvation of atomic, molecular or cluster ions in HNDs. After briefly discussing the p...
We report the first experimental observation of negatively charged hydrogen and deuterium cluster i...
International audienceContext. Helium, the second most abundant element in the Universe, with a rela...
The structures and the vibrational dynamics of the complexes HHe are investigated experimentally (vi...
Ion–molecule reactions between clusters of H₂/D₂ and O₂ in liquid helium nanodroplets were initiated...
We use a novel technique to solvate silver cations in small clusters of noble gases. The technique i...
Cationic species with noble gas (Ng)-hydrogen bonds play a major role in the gas-phase ion chemistry...
In a recent report, Uggerud and co-workers (A. Krapp et al., Chem. Eur. J. 2008. 14, 4028) proposed ...
We report the results of an experimental study of electron ionization of large helium nanodroplets d...
11 pags., 13 figs.Solvation of Cs+ ions inside helium droplets has been investigated both experiment...
The electron-driven ionization of helium droplets doped with pure methanol and ethanol clusters has ...
We investigate the HM+–He complexes (M = Group 2 metal) using quantum chemistry. Equilibrium geometr...