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Main Authors: Fußangel, Jonas, Sothmann, Björn, Johannsen, Sven, Ossinger, Sascha, Tuczek, Felix, Berndt, Richard, König, Jürgen, Gruber, Manuel
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2506.13373
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author Fußangel, Jonas
Sothmann, Björn
Johannsen, Sven
Ossinger, Sascha
Tuczek, Felix
Berndt, Richard
König, Jürgen
Gruber, Manuel
author_facet Fußangel, Jonas
Sothmann, Björn
Johannsen, Sven
Ossinger, Sascha
Tuczek, Felix
Berndt, Richard
König, Jürgen
Gruber, Manuel
contents Spin-crossover complexes exhibit two stable configurations with distinct spin states. The investigation of these molecules using low-temperature scanning tunneling microscopy has opened new perspectives for understanding the associated switching mechanisms at the single-molecule level. While the role of tunneling electrons in driving the spin-state switching has been clearly evidenced, the underlying microscopic mechanism is not completely understood. In this study, we investigate the electron-induced switching of [Fe(H$_2$B(pz)(pypz))$_2$] (pz = pyrazole, pypz = pyridylpyrazole) adsorbed on Ag(111). The current time traces show transitions between two current levels corresponding to the two spin states. We extract switching rates from these traces by analyzing waiting-time distributions. Their sample-voltage dependence can be explained within a simple model in which the switching is triggered by a transient charging of the molecule. The comparison between experimental data and theoretical modeling provides estimates for the energies of the lowest unoccupied molecular orbitals, which were so far experimentally inaccessible. Overall, our approach offers new insights into the electron-induced switching mechanism and predicts enhanced switching rates upon electronic decoupling of the molecule from the metallic substrate, for example by introducing an ultrathin insulating layer.
format Preprint
id arxiv_https___arxiv_org_abs_2506_13373
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Statistical analysis of electron-induced switching of a spin-crossover complex
Fußangel, Jonas
Sothmann, Björn
Johannsen, Sven
Ossinger, Sascha
Tuczek, Felix
Berndt, Richard
König, Jürgen
Gruber, Manuel
Mesoscale and Nanoscale Physics
Spin-crossover complexes exhibit two stable configurations with distinct spin states. The investigation of these molecules using low-temperature scanning tunneling microscopy has opened new perspectives for understanding the associated switching mechanisms at the single-molecule level. While the role of tunneling electrons in driving the spin-state switching has been clearly evidenced, the underlying microscopic mechanism is not completely understood. In this study, we investigate the electron-induced switching of [Fe(H$_2$B(pz)(pypz))$_2$] (pz = pyrazole, pypz = pyridylpyrazole) adsorbed on Ag(111). The current time traces show transitions between two current levels corresponding to the two spin states. We extract switching rates from these traces by analyzing waiting-time distributions. Their sample-voltage dependence can be explained within a simple model in which the switching is triggered by a transient charging of the molecule. The comparison between experimental data and theoretical modeling provides estimates for the energies of the lowest unoccupied molecular orbitals, which were so far experimentally inaccessible. Overall, our approach offers new insights into the electron-induced switching mechanism and predicts enhanced switching rates upon electronic decoupling of the molecule from the metallic substrate, for example by introducing an ultrathin insulating layer.
title Statistical analysis of electron-induced switching of a spin-crossover complex
topic Mesoscale and Nanoscale Physics
url https://arxiv.org/abs/2506.13373