Nanowires of iron oxides embedded in SiO2 templates

FELLENZ, N.A; BENGOA, J.F.; MARCHETTI, S.G.; SIVES, FLAVIO R.; MERCADER, R.C.

HYPERFINE INTERACTIONS

Springer Verlag

Año: 2006 vol. 161 p. 43 - 53

0304-3843

To attain the complete filling of the channels of MCM-41 with magnetite and maghemite, we have tried out an alternative method to the incipient wetness impregnation. The mesoporous material was instilled with a Fe-carrying organic salt after subjecting the matrix to a silylation treatment. Thus, a solid of 7.7 wt.% iron-loaded MCM-41 was obtained. Different subsequent thermal treatments were used to produce +-Fe2O3 or Fe3O4. The Mössbauer and magnetic results show that after this method, the as-prepared composite displays a size-distribution of magnetic particles. It is mainly made up of fine particles that display a superparamagnetic relaxation at room temperature and get blocked at ≈42 K for the AC susceptibility time-scale measurements both for +-Fe2O3 and Fe3O4 particles. For both samples, about 24% of larger iron-containing phases are magnetically blocked at room temperature. For the Fe3O4 particles, this fraction undergoes the Verwey transition at about 110 K; in addition, there is a minor Fe (III) fraction that remains paramagnetic down to 4.2 K