Your search keyword '"Daniel J. Goebbert"' showing total 4 results

1. Vibrational signatures of hydrogen bonding in the protonated ammonia clusters NH4+(NH3)1−4

Author

Oliver Kühn, Knut R. Asmis, Yonggang Yang, Daniel J. Goebbert, Gabriele Santambrogio, Institut für Chemie [Rostock], Universität Rostock, and Freie Universität Berlin

Subjects

Spectrophotometry, Infrared, Infrared, Dimer, General Physics and Astronomy, Infrared spectroscopy, 010402 general chemistry, Vibration, 01 natural sciences, Molecular physics, Dissociation (chemistry), Spectral line, Ion, chemistry.chemical_compound, MCTDH, Ammonia, 0103 physical sciences, [CHIM]Chemical Sciences, Physical and Theoretical Chemistry, ComputingMilieux_MISCELLANEOUS, [PHYS]Physics [physics], 010304 chemical physics, Chemistry, Hydrogen bond, Photodissociation, Hydrogen Bonding, 0104 chemical sciences, Thermodynamics, Protons

Abstract

The gas phase vibrational spectroscopy of the protonated ammonia dimer N(2)H(7)(+), a prototypical system for strong hydrogen bonding, is studied in the spectral region from 330 to 1650 cm(-1) by combining infrared multiple photon dissociation and multidimensional quantum mechanical simulations. The fundamental transition of the antisymmetric proton stretching vibration is observed at 374 cm(-1) and assigned on the basis of a six-dimensional model Hamiltonian, which predicts this transition at 471 cm(-1). Photodissociation spectra of the larger protonated ammonia clusters NH(4)(+)(NH(3))(n) with n=2-4 are also reported for the range from 1050 to 1575 cm(-1). The main absorption features can be assigned within the harmonic approximation, supporting earlier evidence that hydrogen bonding in these clusters is considerably weaker than for n=1.

Published

2008

2. Vibrational spectroscopy of hydrated electron clusters (H2O)-15-50 via infrared multiple photon dissociation

Author

Etienne Garand, Gabriele Santambrogio, Daniel J. Goebbert, Jia Zhou, Jeffrey M. Headrick, Mark A. Johnson, Knut R. Asmis, and Daniel M. Neumark

Subjects

Delocalized electron, Infrared, Chemistry, Photodissociation, Cluster (physics), General Physics and Astronomy, Infrared spectroscopy, Water cluster, Physical and Theoretical Chemistry, Atomic physics, Solvated electron, Molecular physics, Dissociation (chemistry)

Abstract

Infrared multiple photon dissociation spectra for size-selected water cluster anions (H2O)-n, n=15–50, are presented covering the frequency range of 560–1820 cm-1. The cluster ions are trapped and cooled by collisions with ambient He gas at 20 K, with the goal of defining the cluster temperature better than in previous investigations of these species. Signal is seen in two frequency regions centered around 700 and 1500–1650 cm-1, corresponding to water librational and bending motions, respectively. The bending feature associated with a double-acceptor water molecule binding to the excess electron is clearly seen up to n=35, but above n=25; this feature begins to blueshift and broadens, suggesting a more delocalized electron binding motif for the larger clusters in which the excess electron interacts with multiple water molecules.

Published

2007

3. Photoelectron Spectroscopic Study of the Oxyallyl Diradical.

Author

Takatoshi Ichino, Stephanie M. Villano, Adam J. Gianola, Daniel J. Goebbert, Luis Velarde, Andrei Sanov, Stephen J. Blanksby, Xin Zhou, David A. Hrovat, Weston Thatcher Borden, and W. Carl Lineberger

Published

2011

4. Messenger-Tagging Electrosprayed Ions: Vibrational Spectroscopy of Suberate Dianions.

Author

Daniel J. Goebbert, Torsten Wende, Risshu Bergmann, Gerard Meijer, and Knut R. Asmis

Subjects

*VIBRATIONAL spectra, *PHOTODISSOCIATION, *ELECTRONIC structure, *PHASE equilibrium, *ENERGY bands, *ANIONS

Abstract

The gas-phase vibrational spectroscopy of bare and monohydrated suberate dianions, −OOC−(CH2)6−COO−and −OOC−(CH2)6−COO−·H2O, is studied by infrared photodissociation aided by electronic structure calculations. To this end, the corresponding ion−Kr atom complexes are formed in a cooled buffer-gas-filled ion trap, and their infrared vibrational predissociation spectra are measured in the range from 660 to 3600 cm−1. The water molecule binds to one of the two carboxylate groups in a bidentate fashion, characterized by the splitting of the carboxylate stretching bands, a substantially blue-shifted water bending band, and the presence of anomalously broadened bands in the O−H stretching and H2O rocking region. The C−C backbone structure remains unperturbed by the addition of a water molecule or a Kr atom. At 63 K, the all-trans isomer is the most abundant species, but evidence for dynamically interconverting conformers is also present from contributions to the absorption cross section on the low-energy tail of the C−H stretching region. [ABSTRACT FROM AUTHOR]

Published

2009