Atomic-scale chemistry: Desorption of ammonia from Cu(111) induced by tunneling electrons

Bartels, Ludwig; Wolf, M.; Klamroth, T.; Saalfrank, P.; Kühnle, Angelika; Meyer, G.; Rieder, K.-H.

Atomic-scale chemistry: Desorption of ammonia from Cu(111) induced by tunneling electrons

Bartels L, Wolf M, Klamroth T, Saalfrank P, Kühnle A, Meyer G, Rieder K-H (1999)
Chemical Physics Letters 313: 544.

Zeitschriftenaufsatz | Veröffentlicht | Englisch

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DOI

https://doi.org/10.1016/S0009-2614(99)01108-2

URN

urn:nbn:de:0070-pub-29138676

Autor*in

Bartels, Ludwig; Wolf, M.; Klamroth, T.; Saalfrank, P.; Kühnle, Angelika^UniBi; Meyer, G.; Rieder, K.-H.

Einrichtung

Fakultät für Chemie > Physikalische Chemie I

Abstract / Bemerkung

We report on excitation experiments on individual ammonia molecules adsorbed on Cu(lll) using a low-temperature scanning tunneling microscope. Multiple electronic excitation of the ammonia-substrate bond can lead to the desorption of molecules from the substrate and their transfer to the STM tip apex. The dependency of the desorption yield on the tunneling current at different biases shows that the order of the desorption process correlates directly with the minimum number of electrons necessary to overcome the binding energy. In contrast to previous experiments, excitation with either polarity, i.e., electron and hole attachment, can cause desorption. Hartree-Fock calculations allow us to deduce from spectroscopical data that the desorption process is mediated by an ammonia modified Cu4s state near the Fermi level. (C) 1999 Elsevier Science B.V. All rights reserved.

Erscheinungsjahr

1999

Zeitschriftentitel

Chemical Physics Letters

Band

313

Seite(n)

544

Urheberrecht / Lizenzen

Creative Commons Namensnennung 4.0 International Public License (CC-BY 4.0)

ISSN

0009-2614

Page URI

https://pub.uni-bielefeld.de/record/2913867

Zitieren

Bartels L, Wolf M, Klamroth T, et al. Atomic-scale chemistry: Desorption of ammonia from Cu(111) induced by tunneling electrons. Chemical Physics Letters. 1999;313:544.

Bartels, L., Wolf, M., Klamroth, T., Saalfrank, P., Kühnle, A., Meyer, G., & Rieder, K. - H. (1999). Atomic-scale chemistry: Desorption of ammonia from Cu(111) induced by tunneling electrons. Chemical Physics Letters, 313, 544. https://doi.org/10.1016/S0009-2614(99)01108-2

Bartels, Ludwig, Wolf, M., Klamroth, T., Saalfrank, P., Kühnle, Angelika, Meyer, G., and Rieder, K.-H. 1999. “Atomic-scale chemistry: Desorption of ammonia from Cu(111) induced by tunneling electrons”. Chemical Physics Letters 313: 544.

Bartels, L., Wolf, M., Klamroth, T., Saalfrank, P., Kühnle, A., Meyer, G., and Rieder, K. - H. (1999). Atomic-scale chemistry: Desorption of ammonia from Cu(111) induced by tunneling electrons. Chemical Physics Letters 313, 544.

Bartels, L., et al., 1999. Atomic-scale chemistry: Desorption of ammonia from Cu(111) induced by tunneling electrons. Chemical Physics Letters, 313, p 544.

L. Bartels, et al., “Atomic-scale chemistry: Desorption of ammonia from Cu(111) induced by tunneling electrons”, Chemical Physics Letters, vol. 313, 1999, pp. 544.

Bartels, L., Wolf, M., Klamroth, T., Saalfrank, P., Kühnle, A., Meyer, G., Rieder, K.-H.: Atomic-scale chemistry: Desorption of ammonia from Cu(111) induced by tunneling electrons. Chemical Physics Letters. 313, 544 (1999).

Bartels, Ludwig, Wolf, M., Klamroth, T., Saalfrank, P., Kühnle, Angelika, Meyer, G., and Rieder, K.-H. “Atomic-scale chemistry: Desorption of ammonia from Cu(111) induced by tunneling electrons”. Chemical Physics Letters 313 (1999): 544.

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