The deposition of the spin crossover Fe(II)-pyrazolylborate complex on Au(111) surface at molecular level

Description

The interaction at molecular level of the spin-crossover FeII((3,5-(CH3)2Pz)3BH)2 complex with the Au(111) surface is analyzed by means of rPBE periodic calculations. Our results show that the adsorption on the metallic surface enhances the transition energy, increasing the relative stability of the low spin (LS) state. The interaction indeed is spin-dependent, stronger for the low spin than the high spin (HS) state. The different strength of the Fe ligand field at low and high temperature manifests on the nature, spatial extension and relative energy of the states close to the Fermi level, with a larger metal-ligand hybridization in the LS state. This feature is of relevance for the differential adsorption of the LS and HS molecules, the spin-dependent conductance, and for the differences found in the corresponding STM images, correctly reproduced from the density of states provided by the rPBE calculations. It is expected that this spin dependence will be a general feature of the SCO molecule-substrate interaction, since it is rooted in the different ligand field of Fe site at low and high temperatures, a common hallmark of the Fe(II) SCO complexes. Finally, the states involved in the LIESST phenomenon has been identify through NEVPT2 calculations on a model reaction path. A tentative pathway for the photoinduced LS--> HS transition is proposed, that does not involve the intermediate triplet states, and nicely reproduces both the blue laser wavelength required for the activation, and the wavelength of the reverse HS -> LS transition.

Abstract

Ministerio de Ciencia e Innovación

Abstract

FEDER funds

Abstract

V Plan Propio de Investigacion Universidad de Sevilla

Abstract

ANID, Postdoctorado en el extranjero Becas Chile, folio 74200024

Additional details