Sensitivity of Photoelectron Diffraction to Conformational Changes of Adsorbed Molecules: Tetra-tert-butyl-azobenzene/Au(111)

Overview

Journal Struct Dyn

Date 2017 Feb 21

PMID 28217715

Citations 1

Authors

A Schuler

M Greif

A P Seitsonen

G Mette

L Castiglioni

J Osterwalder

M Hengsberger

Affiliations

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Abstract

Electron diffraction is a standard tool to investigate the atomic structure of surfaces, interfaces, and adsorbate systems. In particular, photoelectron diffraction is a promising candidate for real-time studies of structural dynamics combining the ultimate time resolution of optical pulses and the high scattering cross-sections for electrons. In view of future time-resolved experiments from molecular layers, we studied the sensitivity of photoelectron diffraction to conformational changes of only a small fraction of molecules in a monolayer adsorbed on a metallic substrate. 3,3',5,5'-tetra-tert-butyl-azobenzene served as test case. This molecule can be switched between two isomers, and , by absorption of ultraviolet light. X-ray photoelectron diffraction patterns were recorded from tetra-tert-butyl-azobenzene/Au(111) in thermal equilibrium at room temperature and compared to patterns taken in the photostationary state obtained by exposing the surface to radiation from a high-intensity helium discharge lamp. Difference patterns were simulated by means of multiple-scattering calculations, which allowed us to determine the fraction of molecules that underwent isomerization.

Citing Articles

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Carbone F, Hengsberger M, Castiglioni L, Osterwalder J Struct Dyn. 2018; 4(6):061504.

PMID: 29308416 PMC: 5736395. DOI: 10.1063/1.4995541.

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