Add to ORKGThe X-ray-induced spin crossover transition of an Fe (II) molecular thin film in the presence and absence of a magnetic field has been investigated. The thermal activation energy barrier in the soft X-ray activation of the spin crossover transition for [Fe{H2B(pz)2 }2 (bipy)] molecular thin films is reduced in the presence of an applied magnetic field, as measured through X-ray absorption spectroscopy at various temperatures. The influence of a 1.8 T magnetic field is sufficient to cause deviations from the expected exponential spin state transition behavior which is measured in the field free case. We find that orbital moment diminishes with increasing temperature, relative to the spin moment in the vicinity of room temperature
International audienceUnderstanding the properties of spin-crossover molecules in direct contact wit...
The spin crossover (SCO) transitions at both the surface and over the entire volume of the [Fe{H2B(p...
For probing the nature of spin-state switching in spin-crossover molecules adsorbed on surfaces, x-...
The X-ray-induced spin crossover transition of an Fe (II) molecular thin film in the presence and ab...
Room temperature isothermal reversible spin crossover switching of [Fe(H2B(pz)2)2(bipy)] thin films ...
Spin crossover (SCO) molecules form a significant class of materials for which the magnetic structur...
Molecules with a large local magnetic moment have attracted considerable attention for application i...
The Fe(II) spin crossover complex [Fe{H2 B(pz)2 }2 (bipy)] (pz = pyrazol-1-yl, bipy = 2,2'-bipyridin...
Understanding and controlling the spin-crossover properties of molecular complexes can be of particu...
International audienceA thermal component to the soft x-ray induced spin crossover transition exists...
Using X-ray absorption techniques, we show that temperature- and light-induced spin crossover proper...
Understanding and controlling the spin-crossover properties of molecular complexes can be of particu...
Spin crossover molecules are a promising candidate for molecular spintronics that aim for ultrafast ...
Temperature- and coverage-dependent studies of the Au(1 1 1)-supported spin crossover Fe(II) complex...
International audienceUnderstanding the properties of spin-crossover molecules in direct contact wit...
The spin crossover (SCO) transitions at both the surface and over the entire volume of the [Fe{H2B(p...
For probing the nature of spin-state switching in spin-crossover molecules adsorbed on surfaces, x-...
The X-ray-induced spin crossover transition of an Fe (II) molecular thin film in the presence and ab...
Room temperature isothermal reversible spin crossover switching of [Fe(H2B(pz)2)2(bipy)] thin films ...
Spin crossover (SCO) molecules form a significant class of materials for which the magnetic structur...
Molecules with a large local magnetic moment have attracted considerable attention for application i...
The Fe(II) spin crossover complex [Fe{H2 B(pz)2 }2 (bipy)] (pz = pyrazol-1-yl, bipy = 2,2'-bipyridin...
Understanding and controlling the spin-crossover properties of molecular complexes can be of particu...
International audienceA thermal component to the soft x-ray induced spin crossover transition exists...
Using X-ray absorption techniques, we show that temperature- and light-induced spin crossover proper...
Understanding and controlling the spin-crossover properties of molecular complexes can be of particu...
Spin crossover molecules are a promising candidate for molecular spintronics that aim for ultrafast ...
Temperature- and coverage-dependent studies of the Au(1 1 1)-supported spin crossover Fe(II) complex...
International audienceUnderstanding the properties of spin-crossover molecules in direct contact wit...
The spin crossover (SCO) transitions at both the surface and over the entire volume of the [Fe{H2B(p...
For probing the nature of spin-state switching in spin-crossover molecules adsorbed on surfaces, x-...