Identification of Favorable Silica Surface Sites for Single-Molecule Magnets
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Date
2023-11
Publication Type
Journal Article
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yes
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Abstract
Industrial data storage application based on single-molecule magnets (SMMs) necessitates not only strong magnetic remanence at high temperatures but also requires the implementation of SMMs into a solid material to increase their durability and addressability. While the understanding of the relationship between the local structure of the metal and the resulting magnetic behavior is well understood in molecular systems, it remains challenging to establish a similar understanding for magnetic materials, especially for isolated lanthanide sites on surfaces. For instance, dispersed Dy(III) ions on silica prepared via surface organometallic chemistry exhibit slow magnetic relaxation at low temperatures, but the origin of these properties remains unclear. In this work, we modelled ten neutral complexes with coordination numbers (CN) between three and six ([Dy(OSiF₃)₃(O(SiF₃)2)꜀ₙ₋₃]) representing possible surface sites for dispersed Dy(III) ions and investigated their SMM potential via ab initio CASSCF/RASSI-SO calculations. Detailed analysis of the data shows the strong influence of the spatial position of the anionic ligands while the neutral ligands only play a minor role for the magnetic properties. In particular, a T-shape like orientation of the anionic ligands is predicted to exhibit good SMM properties making it a promising targeted coordination environment for molecular and surface-based SMMs.
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published
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Journal / series
Volume
106 (11)
Pages / Article No.
Publisher
Wiley‐VHCA
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Subject
computational chemistry; lanthanide; single-molecule magnetism; single-molecule studies; surface chemistry
Organisational unit
03872 - Copéret, Christophe / Copéret, Christophe
Notes
Funding
ETH-44 18-1 - Magnetic Layered Materials from Single Molecular Magnets (ETHZ)
725184 - MULtiple PROperties Single Molecule Magnets (EC)
725184 - MULtiple PROperties Single Molecule Magnets (EC)