Title:
Visualizing intramolecular distortions as the origin of transverse magnetic anisotropy
Author(s):
Rolf, Daniela; Lotze, Christian; Czekelius, Constantin; Heinrich, Benjamin W.; Franke, Katharina J.
Year of publication:
2018
Available Date:
2020-04-08T08:05:19Z
Abstract:
The magnetic properties of metal–organic complexes are strongly influenced by conformational changes in the ligand. The flexibility of Fe-tetra-pyridyl-porphyrin molecules leads to different adsorption configurations on a Au(111) surface. By combining low-temperature scanning tunneling spectroscopy and atomic force microscopy, we resolve a correlation of the molecular configuration with different spin states and magnitudes of magnetic anisotropy. When the macrocycle exhibits a laterally undistorted saddle shape, the molecules lie in a S = 1 state with axial anisotropy arising from a square-planar ligand field. If the symmetry in the molecular ligand field is reduced by a lateral distortion of the molecule, we find a finite contribution of transverse anisotropy. Some of the distorted molecules lie in a S = 2 state, again exhibiting substantial transverse anisotropy.
Part of Identifier:
e-ISSN (online): 1948-7185
Keywords:
molecules
magnetic properties
pyridyl
molecular structure
quantum mechanics
DDC-Classification:
530 Physik
Publication Type:
Wissenschaftlicher Artikel
URL of the Original Publication:
DOI of the Original Publication:
Journaltitle:
The journal of physical chemistry letters
Department/institution:
Physik
Comments:
This document is the Accepted Manuscript version of a Published Work that appeared in final form in The Journal of Physical Chemistry Letters, copyright © American Chemical Society after peer review and technical editing by the publisher. To access the final edited and published work see http://dx.doi.org/10.1021/acs.jpclett.8b03036.
