Title :
Paramagnetic-superparamagnetic transition in molecular-sieve-supported antiferromagnetic particles
Author :
Lazaro, F.J. ; Lopez, A. ; Larrea, A. ; Pankhurst, Q.A. ; Nieto, J. M Lopez ; Corma, A.
Author_Institution :
Inst. de Ciencia de Mater. de Aragon, Zaragoza Univ., Spain
fDate :
7/1/1998 12:00:00 AM
Abstract :
Molecular sieves of the type CoAPO-5 have been studied by TEM and ac susceptibility measurements. In the as-synthesised state the material is paramagnetic due to the isolated cobalt ions and microstructurally it looks very homogeneous. After calcination the system develops very small cobalt-containing particles of A size between 1 and 3 nm, is paramagnetic at high temperature, superparamagnetic below about 20 K and starts to experience particle blocking below about 5 K. The tendency of cobalt to produce oxides and hydroxides of antiferromagnetic nature, together with the observed reduction of the effective moment below 20 K suggests that this is indeed a paramagnetic-superparamagnetic transition of antiferromagnetic particles. The susceptibility data have been used to estimate the degree of intraparticle spin uncompensation
Keywords :
antiferromagnetic materials; cobalt; heat treatment; magnetic moments; magnetic particles; magnetic susceptibility; magnetic transitions; paramagnetic materials; particle size; superparamagnetism; transmission electron microscopy; 1 to 3 nm; 5 to 20 K; Co; CoAPO-5; CoO; CoOH; TEM; ac susceptibility; antiferromagnetic particles; as-synthesised state; calcination; cobalt oxides; cobalt-containing particles; effective moment; hydroxides; intraparticle spin uncompensation; isolated cobalt ions; molecular-sieve-supported antiferromagnetic particles; paramagnetic-superparamagnetic transition; particle blocking; Amorphous magnetic materials; Antiferromagnetic materials; Assembly; Calcination; Cobalt; Magnetic materials; Magnetic susceptibility; Molecular sieves; Paramagnetic materials; Temperature distribution;
Journal_Title :
Magnetics, IEEE Transactions on
