Magneto-Optical Properties of a Ferronematic Colloid

Author

Economou, Evangelos C. ; Garbovskiy, Yuriy ; Glushchenko, Anatoliy ; Adireddy, Shiva ; Wiley, John B. ; Malkinski, Leszek Mariusz ; Celinski, Zbigniew

Author_Institution

Univ. of Colorado at Colorado Springs, Colorado Springs, CO, USA

Volume

50

Issue

11

fYear

2014

fDate

Nov. 2014

Firstpage

1

Lastpage

4

Abstract

Fabrication of a thermotropic ferronematic colloid is reported, consisting of a 1% concentration of magnetite nanorods dispersed in a commercially obtained liquid crystal (LC). To produce the nanorods, solvothermal synthesis was utilized by adding Fe(CO)₅ to a reaction solution of hexadecylamine and oleic acid in n-octanol. The procedure allows for tailoring of the size and shape of the nanorods. The magnetic nanorods were functionalized with oleic acid. Magneto-optic and electro-optic properties of the colloid were characterized. Specifically, static measurements were performed to determine the birefringence and magnetic and electric Freedericksz thresholds. From the dynamic measurements, the switching time was determined. The nanorods increased the effective magnetic anisotropy of the LC. Depending on nanorod dimensions, the colloid demonstrated faster switching speeds, especially in the presence of crossed electric and magnetic fields.

Keywords

birefringence; colloids; electro-optical effects; iron compounds; liquid crystals; magnetic anisotropy; magneto-optical effects; nanofabrication; nanorods; Fe₃O₄; birefringence; dynamic measurements; electric Freedericksz thresholds; electric field; electro-optical properties; hexadecylamine reaction solution; liquid crystal; magnetic Freedericksz thresholds; magnetic anisotropy; magnetic field; magnetite nanorods concentration; magneto-optical properties; n-octanol; nanorod dimensions; oleic acid; solvothermal synthesis; switching speeds; switching time; thermotropic ferronematic colloid; Magnetic separation; Magnetic switching; Magnetosphere; Perpendicular magnetic anisotropy; Switches; Time measurement; High frequency; liquid crystals (LCs); magnetic nanoparticles; microwave applications; nanorods; solvothermal synthesis;

fLanguage

English

Journal_Title

Magnetics, IEEE Transactions on

Publisher

ieee

ISSN

0018-9464

Type

jour

DOI

10.1109/TMAG.2014.2329875

Filename

6971715