On exchange coupling and bonding in the Gd2@C80 and Gd2@C79N endohedral dimetallo-fullerenes
- Cimpoesu, Fanica Institute of Physical Chemistry, Bucharest, Romania
- Frecus, Bogdan Institute of Physical Chemistry, Bucharest, Romania
- Oprea, Corneliu I. Department of Physics, Ovidius University of Constanţa, Romania
- Ramanantoanina, Harry Department of Chemistry, University of Fribourg, Switzerland
- Urland, Werner Department of Chemistry, University of Fribourg, Switzerland
- Daul, Claude Department of Chemistry, University of Fribourg, Switzerland
-
18.07.2015
Published in:
- Molecular Physics. - 2015, vol. 113, no. 13-14, p. 1712-1727
Lanthanide ions
Exchange coupling
Endohedral fullerenes
Density functional theory
Ligand field theory
Numeric experiments
English
A series of computational experiments performed with various methods belonging to wave-function and density functional theories approaches the issue of bonding regime and exchange coupling in the title compounds. Gd₂@C₈₀ is computed with a very weak exchange coupling, the sign depending on the method, while Gd₂@C₇₉N has resulted with a strong coupling and ferromagnetic ground state, irrespective of the computational approach. The multi-configuration calculation and broken symmetry estimation are yielding closely coincident coupling constants, of about J ∼ 400 cm⁻¹. No experimental estimation exists, but the ferromagnetic ground state of Gd₂@C₇₉N is confirmed from paramagnetic resonance data. The different behaviour is due to particularities of electron accommodation in the orbital scheme. The exchange effects localised on atom lead to preference for parallel alignment of the electrons placed in the 4f and 5d lanthanide shells, determining also a ferromagnetic inter-centre coupling. The structural insight is completed with a ligand field analysis of the density functional theory results in the context of frozen density embedding. The energy decomposition analysis of bonding effects is also discussed. Finally, with the help of home-made codes (named Xatom+Xsphere), a model for the atom encapsulated in a cage is designed, the exemplified numeric experiments showing relevance for the considered endohedral metallo-fullerene issues.
- Faculty
- Faculté des sciences et de médecine
- Department
- Département de Chimie
- Language
-
- English
- Classification
- Chemistry
- License
- License undefined
- Identifiers
-
- RERO DOC 257133
- DOI 10.1080/00268976.2015.1007107
- Persistent URL
- https://folia.unifr.ch/unifr/documents/304474
Statistics
Document views: 48
File downloads:
- dau_ecb.pdf: 139