You are in:Home/Publications/Controlling the composition, microstructure, electrical and magnetic properties of LiFe5O8 powders synthesized by sol gel auto-combustion method using urea as a fuel

Dr. Fawqia abdelfatah afifi elsayed :: Publications:

Title:
Controlling the composition, microstructure, electrical and magnetic properties of LiFe5O8 powders synthesized by sol gel auto-combustion method using urea as a fuel
Authors: M.M. Rashad, M.G. El-Shaarawy, N.M. Shash, M.H. Maklad, F.A. Afifi
Year: 2015
Keywords: spinel ferrite;combustion synthesis
Journal: Magnetism and Magnetic Materials
Volume: 374
Issue: Not Available
Pages: 495-501
Publisher: Not Available
Local/International: International
Paper Link: Not Available
Full paper Fawqia abdelfatah afifi elsayed_1.pdf
Supplementary materials Not Available
Abstract:

Nanocrystalline lithium ferrite LiFe5O8 powders were synthesized by the sol gel auto-combustion method from the corresponding metal nitrates using urea as a fuel. DTA results showed that the LiFe5O8 phase started to form at temperature around 385°C. X-ray diffraction analysis indicates that all compositions were formed in a single-phase cubic spinel structure at different annealing temperatures from 400 to 800 °C for 2h. The lattice parameter was found to decrease whereas the particle size was increased with annealing temperature. The frequency exponent “s” of lithium ferrite lies in the range 0≤s≤1, which confirmed the electron hopping between Fe+2- Fe+3 ions. The electron mobility in LiFe5O8 samples ranged from 0.05 to 0.29 eV, which clearly indicated that the present lithium ferrites have semiconductor-like behavior. The saturation magnetization was increased with increasing the annealing temperature up to 800°C. High saturation magnetization (Ms=51.9 emu/g) was achieved for the ferrite powders produced at annealing temperature 800°C for 2h.

Google ScholarAcdemia.eduResearch GateLinkedinFacebookTwitterGoogle PlusYoutubeWordpressInstagramMendeleyZoteroEvernoteORCIDScopus