Complete Assignment of the Infrared Spectrum of the Gas-Phase Protonated Ammonia Dimer-Reference-Cited by-同舟云学术

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Complete Assignment of the Infrared Spectrum of the Gas-Phase Protonated Ammonia Dimer

Published:2016-05-09 Issue:19 Volume:120 Page:3117-3135
ISSN:1089-5639
Container-title:The Journal of Physical Chemistry A
language:en
Short-container-title:J. Phys. Chem. A

Author:

Wang Huan¹,Agmon Noam¹

Affiliation:

1. The Fritz Haber Research Center, Institute of Chemistry, The Hebrew University of Jerusalem, Jerusalem 91904, Israel

Funder

Israel Science Foundation

Hebrew University of Jerusalem

Publisher

American Chemical Society (ACS)

Subject

Physical and Theoretical Chemistry

Link

https://pubs.acs.org/doi/pdf/10.1021/acs.jpca.5b11062

Reference55 articles.

1. Hydration Structure and Intermolecular Interaction in Polyelectrolytes

2. The Grotthuss mechanism

3. Gas-Phase Infrared Spectrum of the Protonated Water Dimer

4. The vibrational predissociation spectra of the H5O2+∙RGn(RG=Ar,Ne) clusters: Correlation of the solvent perturbations in the free OH and shared proton transitions of the Zundel ion

5. An H/D Isotopic Substitution Study of the H5O2+·Ar Vibrational Predissociation Spectra: Exploring the Putative Role of Fermi Resonances in the Bridging Proton Fundamentals

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1. Molecular Dynamics with Constrained Nuclear Electronic Orbital Density Functional Theory: Accurate Vibrational Spectra from Efficient Incorporation of Nuclear Quantum Effects;Journal of the American Chemical Society;2022-02-24

2. Molecular vibrational spectral simulation connects theoretical cluster structure identification and vibrational spectral evidence;Physical Chemistry Chemical Physics;2022

3. Anharmonic IR spectra of solvated ammonium and aminium ions: resemblance between water and bisulfate solvations;Physical Chemistry Chemical Physics;2022

4. Molecular vibrational frequencies from analytic Hessian of constrained nuclear–electronic orbital density functional theory;The Journal of Chemical Physics;2021-06-28

5. Understanding the Hydrogen-Bonded Clusters of Ammonia (NH3)n (n = 3–6): Insights from the Electronic Structure Theory;ACS Omega;2020-12-04

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