Spin-crossover metal complexes are highly promising magnetic molecular switches for prospective molecule-based devices. The spin-crossover molecular photoswitches developed so far operate either at very low temperatures or in the liquid phase, which hinders practical applications. Herein, we present a molecular spin-crossover iron(II) complex that can be switched between paramagnetic high-spin and diamagnetic low-spin states with light at room temperature in the solid state. The reversible photoswitching is induced by alternating irradiation with ultraviolet and visible light and proceeds at the molecular level
Spin crossover (SCO) complexes possess a bistable spin state that reacts sensitively to changes in t...
Understanding and controlling the spin-crossover properties of molecular complexes can be of particu...
Molecules with a large local magnetic moment have attracted considerable attention for application i...
Thin films of a molecular spin crossover iron(II) complex featuring a photochromic diarylethene-bas...
A photoisomerizable diarylethene-derived ligand, phen*, has been successfully introduced into a spin...
Molecular magnetic switches are expected to form the functional components of future nanodevices. He...
The article deals with coordination compounds of iron(II) that may exhibit thermally induced spin tr...
The crystal structures in both irradiated and nonirradiated states of a photoinduced molecular switc...
The four-coordinate Fe(II) complex, PhB(MesIm)3Fe-N═PPh3 (1) has been previously reported to undergo...
The interest in bistable molecular materials for information processing has been discussed by severa...
International audienceThe Fe(II) spin crossover complex [Fe{H2 B(pz)2 }2 (bipy)] (pz = pyrazol-1-yl,...
The organization of a molecular FeIII complex embedded in a halogen bonded 2D network is chemically ...
The design of molecules that could be utilised for information storage is one of the main challenge ...
Molecular materials possessing phototunable fluorescence properties have attracted great interest ow...
Molecular magnetic switches are expected to form the functional components of future nanodevices. He...
Spin crossover (SCO) complexes possess a bistable spin state that reacts sensitively to changes in t...
Understanding and controlling the spin-crossover properties of molecular complexes can be of particu...
Molecules with a large local magnetic moment have attracted considerable attention for application i...
Thin films of a molecular spin crossover iron(II) complex featuring a photochromic diarylethene-bas...
A photoisomerizable diarylethene-derived ligand, phen*, has been successfully introduced into a spin...
Molecular magnetic switches are expected to form the functional components of future nanodevices. He...
The article deals with coordination compounds of iron(II) that may exhibit thermally induced spin tr...
The crystal structures in both irradiated and nonirradiated states of a photoinduced molecular switc...
The four-coordinate Fe(II) complex, PhB(MesIm)3Fe-N═PPh3 (1) has been previously reported to undergo...
The interest in bistable molecular materials for information processing has been discussed by severa...
International audienceThe Fe(II) spin crossover complex [Fe{H2 B(pz)2 }2 (bipy)] (pz = pyrazol-1-yl,...
The organization of a molecular FeIII complex embedded in a halogen bonded 2D network is chemically ...
The design of molecules that could be utilised for information storage is one of the main challenge ...
Molecular materials possessing phototunable fluorescence properties have attracted great interest ow...
Molecular magnetic switches are expected to form the functional components of future nanodevices. He...
Spin crossover (SCO) complexes possess a bistable spin state that reacts sensitively to changes in t...
Understanding and controlling the spin-crossover properties of molecular complexes can be of particu...
Molecules with a large local magnetic moment have attracted considerable attention for application i...