Temperature-dependent intensity anomalies in amino acid esters: weak hydrogen bonds in protected glycine, alanine and valine
2011 | Zeitschriftenartikel. Eine Publikation mit Affiliation zur Georg-August-Universität Göttingen.
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Zitiervorschlag
Temperature-dependent intensity anomalies in amino acid esters: weak hydrogen bonds in protected glycine, alanine and valine
Otto, K. E.; Hesse, S.; Wassermann, T. N.; Rice, C. A.; Suhm, M. A. ; Stafforst, T. & Diederichsen, U. (2011)
Physical Chemistry Chemical Physics, 13(31) pp. 14119-14130. DOI: https://doi.org/10.1039/c1cp20883g
Dokumente & Medien
Details
- Autor(en)
- Otto, Katharina E.; Hesse, Susanne; Wassermann, Tobias N.; Rice, Corey A.; Suhm, Martin A. ; Stafforst, Thorsten; Diederichsen, Ulf
- Zusammenfassung
- Esters of glycine, alanine and valine are investigated by FTIR and Raman spectroscopy in supersonic jets as gas phase model systems for the neutral peptide N-terminus. The NH-stretching vibrations exhibit very large temperature-and substitution-dependent intensity anomalies which are related to weak, bifurcated intramolecular hydrogen bonds to the carbonyl group. Comparison to theory is only satisfactory at low temperature. Spectral NH aggregation shifts are small or even negligible and the associated IR intensity is remarkably low. In the case of valine, chirality recognition effects are nevertheless detected and rationalized. Comparison to quantum-chemical calculations for dimers shows that dispersion interactions are essential. It also rules out cooperative hydrogen bond topologies and points at deficiencies in standard harmonic treatments with the linear dipole approximation.
- Erscheinungsdatum
- 2011
- Status
- published
- Herausgeber
- Royal Soc Chemistry
- Zeitschrift
- Physical Chemistry Chemical Physics
- Organisation
- Institut für Physikalische Chemie
- ISSN
- 1463-9084; 1463-9076
- Förderer
- DFG [Su121/2]; Fonds der Chemischen Industrie
