Water adsorption lifts the (2 * 1) reconstruction of calcite(104)

Heggemann, Jonas; Aeschlimann, Simon; Dickbreder, Tobias; Ranawat, Yashasvi S; Bechstein, Ralf; Kühnle, Angelika; Foster, Adam S; Rahe, Philipp

Water adsorption lifts the (2 * 1) reconstruction of calcite(104)

Heggemann J, Aeschlimann S, Dickbreder T, Ranawat YS, Bechstein R, Kühnle A, Foster AS, Rahe P (2023)
Physical Chemistry, Chemical Physics.

Zeitschriftenaufsatz | E-Veröff. vor dem Druck | Englisch

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DOI

https://doi.org/10.1039/d3cp01408h

URN

urn:nbn:de:0070-pub-29811915

Autor*in

Heggemann, Jonas; Aeschlimann, Simon; Dickbreder, Tobias^UniBi ; Ranawat, Yashasvi S; Bechstein, Ralf^UniBi; Kühnle, Angelika^UniBi; Foster, Adam S; Rahe, Philipp

Einrichtung

Fakultät für Chemie > Physikalische Chemie I

Abstract / Bemerkung

The adsorption of water on calcite(104) is investigated in ultra-high vacuum by density functional theory (DFT) and non-contact atomic force microscopy (NC-AFM) in the coverage regime of up to one monolayer (ML). DFT calculations reveal a clear preference for water to adsorb on the bulk-like carbonate group rows of the (2 * 1) reconstructed surface. Additionally, an apparent water attraction due to carbonate group reorientation suggest island formation for water adsorbed on the reconstructed carbonate group rows. Experimentally, water is found to exclusively occupy specific positions within the (2 * 1) unit cell up to 0.5 ML, to form islands at coverage between 0.5 and 1 ML, and to express a (1 * 1) structure at coverage of a full monolayer.

Erscheinungsjahr

2023

Zeitschriftentitel

Physical Chemistry, Chemical Physics

Urheberrecht / Lizenzen

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

ISSN

1463-9084

Page URI

https://pub.uni-bielefeld.de/record/2981191

Zitieren

Heggemann J, Aeschlimann S, Dickbreder T, et al. Water adsorption lifts the (2 * 1) reconstruction of calcite(104). Physical Chemistry, Chemical Physics. 2023.

Heggemann, J., Aeschlimann, S., Dickbreder, T., Ranawat, Y. S., Bechstein, R., Kühnle, A., Foster, A. S., et al. (2023). Water adsorption lifts the (2 * 1) reconstruction of calcite(104). Physical Chemistry, Chemical Physics. https://doi.org/10.1039/d3cp01408h

Heggemann, Jonas, Aeschlimann, Simon, Dickbreder, Tobias, Ranawat, Yashasvi S, Bechstein, Ralf, Kühnle, Angelika, Foster, Adam S, and Rahe, Philipp. 2023. “Water adsorption lifts the (2 * 1) reconstruction of calcite(104)”. Physical Chemistry, Chemical Physics.

Heggemann, J., Aeschlimann, S., Dickbreder, T., Ranawat, Y. S., Bechstein, R., Kühnle, A., Foster, A. S., and Rahe, P. (2023). Water adsorption lifts the (2 * 1) reconstruction of calcite(104). Physical Chemistry, Chemical Physics.

Heggemann, J., et al., 2023. Water adsorption lifts the (2 * 1) reconstruction of calcite(104). Physical Chemistry, Chemical Physics.

J. Heggemann, et al., “Water adsorption lifts the (2 * 1) reconstruction of calcite(104)”, Physical Chemistry, Chemical Physics, 2023.

Heggemann, J., Aeschlimann, S., Dickbreder, T., Ranawat, Y.S., Bechstein, R., Kühnle, A., Foster, A.S., Rahe, P.: Water adsorption lifts the (2 * 1) reconstruction of calcite(104). Physical Chemistry, Chemical Physics. (2023).

Heggemann, Jonas, Aeschlimann, Simon, Dickbreder, Tobias, Ranawat, Yashasvi S, Bechstein, Ralf, Kühnle, Angelika, Foster, Adam S, and Rahe, Philipp. “Water adsorption lifts the (2 * 1) reconstruction of calcite(104)”. Physical Chemistry, Chemical Physics (2023).

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