Unusual enhancement of effective magnetic anisotropy with decreasing particle size in maghemite nanoparticles

Abstract

Experimental results and a model are presented to explain the observed unusual enhancement of the effective magnetic anisotropy Keff with decreasing particle size D from 15 nm to 2.5 nm in γ-Fe2O3 nanoparticles (NPs). The samples include oleic acid-coated NPs with D = 2.5, 3.4, 6.3 and 7.0 nm investigated here, with the results on other sizes taken from literature. Keff is determined from the analysis of the frequency dependence of the blocking temperature TB after considering the effects of interparticle interactions on TB. The data of Keff vs. D is fit to the derived core-shell-based relation: Keff = Kb + (6KS/D) +Ksh[1-(2d/D)](-3) -1, with Kb = 1.9 x105 ergs/cm3 as the bulk-like contribution of the core, KS = 0.035 ergs/cm2 as the contribution of the surface layer, and Ksh = 1.057 x104 ergs/cm3 as the contributions of spins in the shell of thickness d = 1.1 nm. This equation represents an extension of the often-used Eq.: Keff = Kb + (6KS/D). Significance of this new result is discussed.