Cooperative mechanism for anchoring highly polar molecules at an ionic surface
Schütte J, Bechstein R, Rohlfing M, Reichling M, Kühnle A (2009)
Physical Review B 80(20): 205421.
Zeitschriftenaufsatz
| Veröffentlicht | Englisch
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PhysRevB_80_2009_Schütte.pdf
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Autor*in
Schütte, Jens;
Bechstein, RalfUniBi;
Rohlfing, Michael;
Reichling, Michael;
Kühnle, AngelikaUniBi
Einrichtung
Abstract / Bemerkung
Structure formation of the highly polar molecule cytosine on the (111) cleavage plane of calcium fluoride is investigated in ultrahigh vacuum using noncontact atomic force microscopy at room temperature. Molecules form well-defined trimer structures, covering the surface as homogeneously distributed stable structures. Density-functional theory calculations yield a diffusion barrier of about 0.5 eV for individual molecules suggesting that they are mobile at room temperature. Furthermore, it is predicted that the molecules can form trimers in a configuration allowing all molecules to attain their optimum adsorption position on the substrate. As the trimer geometry facilitates hydrogen bonding between the molecules within the trimer, we conclude that the stabilization of individual diffusing molecules into stable trimers is due to a cooperative mechanism involving polar interactions between molecules and substrate as well as hydrogen bonding between molecules.
Erscheinungsjahr
2009
Zeitschriftentitel
Physical Review B
Band
80
Ausgabe
20
Seite(n)
205421
ISSN
1098-0121
Page URI
https://pub.uni-bielefeld.de/record/2913837
Zitieren
Schütte J, Bechstein R, Rohlfing M, Reichling M, Kühnle A. Cooperative mechanism for anchoring highly polar molecules at an ionic surface. Physical Review B. 2009;80(20):205421.
Schütte, J., Bechstein, R., Rohlfing, M., Reichling, M., & Kühnle, A. (2009). Cooperative mechanism for anchoring highly polar molecules at an ionic surface. Physical Review B, 80(20), 205421. doi:10.1103/PhysRevB.80.205421
Schütte, Jens, Bechstein, Ralf, Rohlfing, Michael, Reichling, Michael, and Kühnle, Angelika. 2009. “Cooperative mechanism for anchoring highly polar molecules at an ionic surface”. Physical Review B 80 (20): 205421.
Schütte, J., Bechstein, R., Rohlfing, M., Reichling, M., and Kühnle, A. (2009). Cooperative mechanism for anchoring highly polar molecules at an ionic surface. Physical Review B 80, 205421.
Schütte, J., et al., 2009. Cooperative mechanism for anchoring highly polar molecules at an ionic surface. Physical Review B, 80(20), p 205421.
J. Schütte, et al., “Cooperative mechanism for anchoring highly polar molecules at an ionic surface”, Physical Review B, vol. 80, 2009, pp. 205421.
Schütte, J., Bechstein, R., Rohlfing, M., Reichling, M., Kühnle, A.: Cooperative mechanism for anchoring highly polar molecules at an ionic surface. Physical Review B. 80, 205421 (2009).
Schütte, Jens, Bechstein, Ralf, Rohlfing, Michael, Reichling, Michael, and Kühnle, Angelika. “Cooperative mechanism for anchoring highly polar molecules at an ionic surface”. Physical Review B 80.20 (2009): 205421.
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