Sebastian Hagen scite author profile

We employ normal-incidence x-ray standing wave and temperature programed desorption spectroscopy to derive the adsorption geometry and energetics of the prototypical molecular switch azobenzene at Ag(111). This allows us to assess the accuracy of semiempirical correction schemes as a computationally efficient means to overcome the deficiency of semilocal density-functional theory with respect to long-range van der Waals (vdW) interactions. The obtained agreement underscores the significant improvement provided by the account of vdW interactions, with remaining differences mainly attributed to the neglect of electronic screening at the metallic surface.

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Reversible switching of tetra-tert-butyl-azobenzene on a Au(111) surface induced by light and thermal activation

Hagen

Leyssner

Nandi

et al. 2007

Chemical Physics Letters

111

167

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Electronic structure of the molecular switch tetra-tert-butyl-azobenzene adsorbed on Ag(111)

et al. 2007

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Excitation mechanism in the photoisomerization of a surface-bound azobenzene derivative: Role of the metallic substrate

et al. 2008

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Two-photon photoemission spectroscopy is employed to elucidate the electronic structure and the excitation mechanism in the photoinduced isomerization of the molecular switch tetra-tert-butyl-azobenzene (TBA) adsorbed on Au(111). Our results demonstrate that the optical excitation and the mechanism of molecular switching at a metal surface is completely different compared to the corresponding process for the free molecule. In contrast to direct (intramolecular) excitation operative in the isomerization in the liquid phase, the conformational change in the surface-bound TBA is driven by a substrate-mediated charge transfer process. We find that photoexcitation above a threshold hnu approximately 2.2 eV leads to hole formation in the Au d-band followed by a hole transfer to the highest occupied molecular orbital of TBA. This transiently formed positive ion resonance subsequently results in a conformational change. The photon energy dependent photoisomerization cross section exhibit an unusual shape for a photochemical reaction of an adsorbate on a metal surface. It shows a thresholdlike behavior below hnu approximately 2.2 eV and above hnu approximately 4.4 eV. These thresholds correspond to the minimum energy required to create single or multiple hot holes in the Au d-bands, respectively. This study provides important new insights into the use of light to control the structure and function of molecular switches in direct contact with metal electrodes.

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Real-Time Measurement of the Vertical Binding Energy during the Birth of a Solvated Electron

et al. 2015

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Using femtosecond time-resolved two-photon photoelectron spectroscopy, we determine (i) the vertical binding energy (VBE = 0.8 eV) of electrons in the conduction band in supported amorphous solid water (ASW) layers, (ii) the time scale of ultrafast trapping at pre-existing sites (22 fs), and (iii) the initial VBE (1.4 eV) of solvated electrons before significant molecular reorganization sets in. Our results suggest that the excess electron dynamics prior to solvation are representative for bulk ASW.

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Sebastian Hagen

Structure and Energetics of Azobenzene on Ag(111): Benchmarking Semiempirical Dispersion Correction Approaches

Reversible switching of tetra-tert-butyl-azobenzene on a Au(111) surface induced by light and thermal activation

Electronic structure of the molecular switch tetra-tert-butyl-azobenzene adsorbed on Ag(111)

Excitation mechanism in the photoisomerization of a surface-bound azobenzene derivative: Role of the metallic substrate

Real-Time Measurement of the Vertical Binding Energy during the Birth of a Solvated Electron

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