The orientation order of liquid‐crystalline polymer, measured by ESR and optical dichroism techniques

Abstract: Molecular orientation order and rotation mobility of comb‐shaped liquid crystalline polymer forming nematic and smectic mesophases are characterized by spin probe and dichroism technique in the temperature range 100–420 K. The models describing the mechanism of molecular rotations in different temperature ranges were determined by quantitative numerical simulations of ESR spectra. In the vicinity of the glass transition point of the polymer, where the fast amplitude‐restricted molecular reorientations take pla… Show more

“…The ODF as a series of the spherical functions is determined by joint numerical simulation of the spectra. The nitroxide stable radicals are the most widely used as spin probes for the study of the orientational ordering of various materials: liquid crystals, [22][23][24] polymers, 25,26 biological tissues, 27 etc.…”

Quantitative determination of the orientational ordering of graphene oxide membranes by the spin probe technique

“…The ODF as a series of the spherical functions is determined by joint numerical simulation of the spectra. The nitroxide stable radicals are the most widely used as spin probes for the study of the orientational ordering of various materials: liquid crystals, [22][23][24] polymers, 25,26 biological tissues, 27 etc.…”

Quantitative determination of the orientational ordering of graphene oxide membranes by the spin probe technique

Recent progress in EPR study of spin labeled polymers and spin probed polymer systems

Liquid crystal aligned on the apparent isotropic surface in the liquid crystal cell: optical characterization