We present a density functional theory (DFT) study of the electronic and magnetic properties of the Cr8 molecular ring. The allelectron linearized augmented plane wave method (LAPW) implemented in the Wien2k package and pseudopotential method implemented in SIESTA package are used to calculate the electronic states, exchange coupling parameters of an infinite chain model system of Cr8.We demonstrate how, under opportune modifications to the ring cycle structure, different one-dimensional chain models can be devised, with the capability of mimicking with good approximation the electronic and magnetic properties of the original Cr8 molecule. Such models offer an unique opportunity, in virtue of the reduced computational effort, to carry out extensive investigations of a whole set of molecules belonging to the Crbased molecular rings family.
DFT Study of the Cr8 Molecular Magnet Within Chain-Model Approximations / Bellini, Valerio; Daria, M. Tomecka; Brzostowski, Bartosz; Wojciechowski, Michał; Troiani, Filippo; Manghi, Franca; Affronte, Marco. - STAMPA. - 8385:2(2014), pp. 428-437. (Intervento presentato al convegno 10th International Conference on Parallel Processing and Applied Mathematics, PPAM 2013 tenutosi a Warsaw, pol nel 2013) [10.1007/978-3-642-55195-6_40].
DFT Study of the Cr8 Molecular Magnet Within Chain-Model Approximations
BELLINI, Valerio;TROIANI, Filippo;MANGHI, Franca;AFFRONTE, Marco
2014
Abstract
We present a density functional theory (DFT) study of the electronic and magnetic properties of the Cr8 molecular ring. The allelectron linearized augmented plane wave method (LAPW) implemented in the Wien2k package and pseudopotential method implemented in SIESTA package are used to calculate the electronic states, exchange coupling parameters of an infinite chain model system of Cr8.We demonstrate how, under opportune modifications to the ring cycle structure, different one-dimensional chain models can be devised, with the capability of mimicking with good approximation the electronic and magnetic properties of the original Cr8 molecule. Such models offer an unique opportunity, in virtue of the reduced computational effort, to carry out extensive investigations of a whole set of molecules belonging to the Crbased molecular rings family.
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