Magnetic circular dichroism of opal crystals infiltrated with iron porphyrin

Abstract: Synthetic opal crystals composed of silica spheres of diameter ∼250 nm were infiltrated with highly concentrated (10 mM) buffered phosphate solution of iron porphyrin (FeTPPS). Magnetic circular dichroism (MCD) in the visible spectral range was investigated on hybrid samples immersed in polar (ethanol) or non-polar (hexane, toluene) solutions and situated in magnetic field. The MCD effect was observed in the spectral region of 550-650 nm in the vicinity of Q-absorption bands of FeTPPS. In 350 mT magnetic field… Show more

“…The presence of magnetic component in photonic crystals leads to extension of functionality of hybrid samples and fabrication of magnetophotonic crystals (MPCs) [2]. MPCs were developed on the basis of opal-type structures infiltrated with various magnetic compounds such as (Bi,Y)Fe 5 O 12 and Tb-Ga garnets [3][4][5], magnetite Fe 3 O 4 [6][7][8], magnetic fluids Dy(NO 3 ) 2 [9] and iron porphyrin FeTPPS [10], cobalt ferrite CoFe 2 O 4 [11], and BiNi [12]. At the present state of studies, the current problem is a search of prospective materials for fabrication of MPCs and determination of the main regularities in magnetooptical properties of these hybrid structures.…”

Magnetooptics of opal crystals modified by cobalt nanoparticles

“…The presence of magnetic component in photonic crystals leads to extension of functionality of hybrid samples and fabrication of magnetophotonic crystals (MPCs) [2]. MPCs were developed on the basis of opal-type structures infiltrated with various magnetic compounds such as (Bi,Y)Fe 5 O 12 and Tb-Ga garnets [3][4][5], magnetite Fe 3 O 4 [6][7][8], magnetic fluids Dy(NO 3 ) 2 [9] and iron porphyrin FeTPPS [10], cobalt ferrite CoFe 2 O 4 [11], and BiNi [12]. At the present state of studies, the current problem is a search of prospective materials for fabrication of MPCs and determination of the main regularities in magnetooptical properties of these hybrid structures.…”

Magnetooptics of opal crystals modified by cobalt nanoparticles