Understanding the coupling of spin crossover molecules to metallic surfaces is a key ingredient for harnessing of their remarkable features for future spintronics applications. Here we investigate the structural and electronic properties of deformed Fe(1,10-phenanthroline)(2) (NCS)(2) molecules, mimicking the possible effects arising from the interaction with a metallic substrate. We find a relatively large structural flexibility for this molecule, accompanied by small changes in their total. energy. This suggests that the spin crossover activity can be modulated by the interaction with the substrate.
DFT structural investigation on Fe(1,10-phenanthroline)2(NCS)2 spin crossover molecule
Droghetti, A.Investigation
;Morari, C.;
2013-01-01
Abstract
Understanding the coupling of spin crossover molecules to metallic surfaces is a key ingredient for harnessing of their remarkable features for future spintronics applications. Here we investigate the structural and electronic properties of deformed Fe(1,10-phenanthroline)(2) (NCS)(2) molecules, mimicking the possible effects arising from the interaction with a metallic substrate. We find a relatively large structural flexibility for this molecule, accompanied by small changes in their total. energy. This suggests that the spin crossover activity can be modulated by the interaction with the substrate.
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