The sensitivity of liquid crystal doped with functionalized carbon nanotubes to external magnetic fields

Abstract

Stable colloidal suspensions of single-walled carbon nanotubes (SWCNT) and magnetite-labeled SWCNT (SWCNT/Fe₃O₄) in thermotropic liquid crystal 4-(trans-4′-n-hexylcyclohexyl)isothiocyanatobenzene (6CHBT) were investigated. The presence of the magnetite in SWCNT/Fe₃O₄ product has been checked with infrared spectroscopy. Transmission electron microscopy has been employed to obtain the structural and dimensional data for the used samples. Magnetic properties of the samples have been investigated by a SQUID magnetometer and a significant increase of the saturation magnetization has been shown for magnetite labeled SWCNT. The structural changes in the liquid crystal doped with SWCNT or SWCNT/Fe₃O₄ in electric and magnetic fields were investigated. The density of anchoring energy at the nematic–magnetic particle boundary was determined and it was shown that the density of the anchoring energy for liquid crystal doped with SWCNT/Fe₃O₄ is higher than that for the liquid crystal doped with net SWCNT.