Title :
Free Growth of Iron Oxide Nanostructures by Sol-Gel Spin Coating Technique—Structural and Magnetic Properties
Author :
Riaz, S. ; Ashraf, Robina ; Akbar, Arslan ; Naseem, Shahzad
Author_Institution :
Centre of Excellence in Solid State Phys., Univ. of the Punjab, Lahore, Pakistan
Abstract :
The study of on iron oxide, especially magnetite Fe3O4, in the form of thin films and nanostructures, is interesting due to its wide applications in data storage, biomedical, and spintronic devices. Seven different sols are synthesized with varying concentration from 1.8 to 0.6 mM using the sol-gel technique. The concentration of 1.4 mM results in a pure phase whereas others show mixed magnetite and maghemite phases. In addition, changes in film preferred orientation from (400) to (220) planes are responsible for changing the ferromagnetic behavior of films to ferrimagnetic with increased saturation magnetization. Free growth of iron oxide nanostructures, including nanoneedles and nanobrushes, are observed in scanning electron microscope images.
Keywords :
ferrimagnetic materials; ferromagnetic materials; iron compounds; magnetic thin films; magnetisation; nanofabrication; nanomagnetics; nanostructured materials; scanning electron microscopy; sol-gel processing; spin coating; texture; Fe3O4; ferrimagnetic properties; ferromagnetic properties; film preferred orientation; free growth; maghemite phase; magnetic properties; magnetite phase; nanobrushes; nanoneedles; nanostructure films; saturation magnetization; scanning electron microscopy; sol-gel spin coating technique; structural properties; Iron; Magnetic domains; Magnetic multilayers; Magnetic properties; Magnetic resonance imaging; Magnetic tunneling; Saturation magnetization; Ferrimagnetic; free growth; iron oxide; nanostructures;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2014.2305659
