Title of article
Synthesis of magnetite nanoparticles by thermal decomposition of ferrous oxalate dihydrate
Author/Authors
Andre Angermann، نويسنده , , Jo¨rg To¨pfer، نويسنده ,
Issue Information
دوهفته نامه با شماره پیاپی سال 2008
Pages
8
From page
5123
To page
5130
Abstract
Two different polymorphs of ferrous oxalate
dihydrate were synthesized by precipitation of ferrous ions
with oxalic acid: a-Fe(C2O4) 2H2O with a monoclinic unit
cell is obtained after precipitation and ageing at 90 C,
whereas the orthorhombic b-type is formed after precipitation
at room temperature. The morphology of the oxalate
crystals can be tailored from prismatic crystals of the
a-polymorph over star-like aggregates of a/b-mixtures to
non-agglomerated crystallites of b-oxalate. Thermal
decomposition in air gives hematite at T C 250 C; if the
thermolysis reaction is performed at low oxygen partial
pressures (e.g., T = 500 C and pO2 = 10-25 atm) magnetite
is obtained. The synthesized magnetite is stoichiometric
as signaled by lattice parameters of a0 = 8.39 A ° . The thermal
decomposition of ferrous oxalate is monitored by
thermal analysis, XRD, and IR-spectroscopy. The morphology
of the oxalate crystals is preserved during thermal
decomposition; the oxalates are transformed into spinel
particle aggregates of similar size and shape. The crystallite
size of the magnetite particles increases with temperature
and is 40 or 55 nm, if synthesized from b-oxalate at 500 C
or 700 C, respectively. The saturation magnetization of the
magnetite particles decreases with decreasing particle size.
Since the particles are larger than the critical diameter for
superparamagnetic behavior they display hysteresis behavior
at room temperature.
Journal title
Journal of Materials Science
Serial Year
2008
Journal title
Journal of Materials Science
Record number
834508
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