The magnetic properties of the antiferromagnetic cores in ferritin are of importance in the construction and i...
TIAN LanXiang~(1,2),CAO ChangQian~(1,2),LIU QingSong~(1,2) & PAN YongXin~(1,2*) 1 Key Laboratory of the Earth’s Deep Interior,Institute of Geology and Geophysics,Chinese Academy of Sciences,Beijing 100029,China
Recent behavioral observations have indicated that bats can sense the Earth’s magnetic field. To unravel the m...
Lanxiang Tian,~1 Wei Lin,~1Shuyi Zhang,~2and Yongxin Pan~(1*) 1 Biogeomagnetism Group,Paleomagnetism and Geochronology Laboratory, Key Laboratory of the Earth’s Deep Interior,Institute of Geology and Geophysics, Chinese Academy of Sciences,Beijing,China 2 School of Life Sciences,East China Normal University,Shanghai,China
The magnetic properties of the antiferromagnetic cores in ferritin are of importance in the construction and improvement of ferritin-based magnetic resonance imaging systems and their application to environmental magnetism.In this study,we carry out integrated magnetic and transmission electron microscopy analyses of horse spleen ferritin(HoSF)to understand the relationships between the magnetic behavior of HoSF and temperature,applied field and grain-size distributions.The R-value from the Wohlfarth-Cisowski test for the investigated sample at 5 K was 0.46,indicating very weak magnetostatic interactions among the nanoparticles of HoSF.The nanoparticles of HoSF show superparamagnetic properties at room temperature,while below the blocking temperature of Tb≈12 K it has a net magnetic moment that comes from the uncompensated spins of the nanoparticle surface or spin-canting.The thermal relaxation process of HoSF follows the Néel-Arrhenius expression.From low-temperature AC susceptibility data,we calculated the effective magnetic anisotropy energy Ea=(5.52±0.16)×10-21 J;the effective magnetic anisotropy energy constant Keff=(4.65±0.14)×10 4 J/m3 and the pre-exponential frequency factor f0 =(4.52±2.93)×1011 Hz.These values are useful in understanding the magnetic behavior of the antiferromagnetic nanoparticles and their potential application in biomedical technology.
TIAN LanXiang 1,2,CAO ChangQian 1,2,LIU QingSong 1,2 &PAN YongXin 1,2 1Key Laboratory of the Earth’s Deep Interior,Institute of Geology and Geophysics,Chinese Academy of Sciences,Beijing 100029,China
