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The Role of Orbital Symmetries in Enforcing Ferromagnetic Ground State in Mixed Radical Dimers.


ABSTRACT: One of the first steps in designing ferromagnetic (FM) molecular materials of p-block radicals is the suppression of covalent radical-radical interactions that stabilize a diamagnetic ground state. In this contribution, we demonstrate that FM coupling between p-block radicals can be achieved by constructing mixed dimers from different radicals with differing symmetries of their singly occupied molecular orbitals. The applicability of this approach is demonstrated by studying magnetic interactions in organic radical dimers built from different derivatives of the well-known phenalenyl radical. The calculated enthalpies of dimerization for different homo- and heterodimers show that the formation of a mixed dimer with FM coupling is favored compared to the formation of homodimers with antiferromagenetic (AFM) coupling. We argue that cocrystallization of radicals with specifically tuned morphologies of their singly occupied molecular orbitals is a feasible and promising approach in designing new organic magnetic materials.

SUBMITTER: Mansikkamaki A 

PROVIDER: S-EPMC6150729 | biostudies-literature | 2018 Jul

REPOSITORIES: biostudies-literature

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The Role of Orbital Symmetries in Enforcing Ferromagnetic Ground State in Mixed Radical Dimers.

Mansikkamäki Akseli A   Tuononen Heikki M HM  

The journal of physical chemistry letters 20180619 13


One of the first steps in designing ferromagnetic (FM) molecular materials of p-block radicals is the suppression of covalent radical-radical interactions that stabilize a diamagnetic ground state. In this contribution, we demonstrate that FM coupling between p-block radicals can be achieved by constructing mixed dimers from different radicals with differing symmetries of their singly occupied molecular orbitals. The applicability of this approach is demonstrated by studying magnetic interaction  ...[more]

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