Spectral Signatures of Hydrated Proton Vibrations in Water Clusters
University of Georgia · University of Pittsburgh · +2 more institutions
Abstract
The ease with which the pH of water is measured obscures the fact that there is presently no clear molecular description for the hydrated proton. The mid-infrared spectrum of bulk aqueous acid, for example, is too diffuse to establish the roles of the putative Eigen (H3O+) and Zundel (H5O2+) ion cores. To expose the local environment of the excess charge, we report how the vibrational spectrum of protonated water clusters evolves in the size range from 2 to 11 water molecules. Signature bands indicating embedded Eigen or Zundel limiting forms are observed in all of the spectra with the exception of the three- and five-membered clusters. These unique species display bands appearing at intermediate energies,…
Citation impact
- FWCI
- 34.63
- Percentile
- 100%
- References
- 34
Authors
10- JMJeffrey M. Headrick
University of Georgia, University of Pittsburgh, Yale University, Sterling Research Group
- EGEric G. Diken
University of Georgia, University of Pittsburgh, Yale University, Sterling Research Group
- RWR. Walters
University of Georgia, University of Pittsburgh, Yale University, Sterling Research Group
- NINathan I. Hammer
University of Georgia, University of Pittsburgh, Yale University, Sterling Research Group
- RCRichard Christie
University of Georgia, University of Pittsburgh, Yale University, Sterling Research Group
Topics & keywords
- Solvation
- Protonation
- Proton
- Chemical physics
- Ion
- Chemistry
- Limiting
- Aqueous solution
- Clean water and sanitation