Thermal and electronic fluctuations of flexible adsorbed molecules: Azobenzene 
on Ag(111)

Maurer, R. J.; Liu, Wei; Poltavskyi, Igor; Stecher, T.; Oberhofer, H.; Reuter, K.; Tkatchenko, Alexandre

doi:10.1103/PhysRevLett.116.146101

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Thermal and electronic fluctuations of flexible adsorbed molecules: Azobenzene on Ag(111)

Maurer, R. J., Liu, W., Poltavskyi, I., Stecher, T., Oberhofer, H., Reuter, K., et al. (2016). Thermal and electronic fluctuations of flexible adsorbed molecules: Azobenzene on Ag(111). Physical Review Letters, 116(14): 146101. doi:10.1103/PhysRevLett.116.146101.

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Creators:
Maurer, R. J.^{1, 2}, Author
Liu, Wei^{3, 4}, Author
Poltavskyi, Igor^{3, 5}, Author
Stecher, T.¹, Author
Oberhofer, H.¹, Author
Reuter, K.¹, Author
Tkatchenko, Alexandre^{3, 5}, Author

Affiliations:
1Department Chemie, Technische Universität München, D-85748 Garching, Germany, ou_persistent22
2Department of Chemistry, Yale University, New Haven, CT 06520, United States, ou_persistent22
3Theory, Fritz Haber Institute, Max Planck Society, ou_634547
4Nano Structural Materials Center, School of Materials Science and Engineering, Nanjing University of Science and Technology, Nanjing 210094, Jiangsu, China, ou_persistent22
5Physics and Materials Science Research Unit, University of Luxembourg, L-1511 Luxembourg, ou_persistent22

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Abstract: We investigate the thermal and electronic collective fluctuations that contribute to the finitetemperature adsorption properties of flexible adsorbates on surfaces on the example of the molecular switch azobenzene C₁₂H₁₀N₂ on the Ag(111) surface. Using first-principles molecular dynamics simulations we obtain the free energy of adsorption that accurately accounts for entropic contributions, whereas the inclusion of many-body dispersion interactions accounts for the electronic correlations that govern the adsorbate binding. We find the adsorbate properties to be strongly entropy-driven, as can be judged by a kinetic molecular desorption prefactor of 10²⁴ s^-1 that largely exceeds previously reported estimates. We relate this effect to sizable fluctuations across structural and electronic observables. Comparison of our calculations to temperature-programmed desorption measurements demonstrates that finite-temperature effects play a dominant role for flexible molecules in contact with polarizable surfaces, and that recently developed first-principles methods offer an optimal tool to reveal novel collective behavior in such complex systems.

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Dates: Submitted: 2016-01-05Accepted: 2016-03-10Published Online: 2016-04-08Date issued: 2016-04

Publication Status: Issued

Pages: 6

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Rev. Type: Peer

Identifiers: DOI: 10.1103/PhysRevLett.116.146101

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Project name : VDW-CMAT - Van der Waals Interactions in Complex Materials

Grant ID : 278205

Funding program : Funding Programme 7 (FP7)

Funding organization : European Commission (EC)

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Title: Physical Review Letters

Abbreviation : Phys. Rev. Lett.

Source Genre: Journal

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Publ. Info: Woodbury, N.Y. : American Physical Society

Pages: 6 Volume / Issue: 116 (14) Sequence Number: 146101 Start / End Page: - Identifier: ISSN: 0031-9007
CoNE: https://pure.mpg.de/cone/journals/resource/954925433406_1