Tunable order in colloids of hard magnetic hexaferrite nanoplatelets  

作　　者：Artem A.Eliseev Lev A.Trusov Evgeny O.Anokhin Andrei P.Chumakov Vladimir V.Korolev Anastasia E.Sleptsova Peter Boesecke Vladimir Ya.Shur Vladimir YaShur Pavel E.Kazin Andrei A.Eliseev 

机构地区：[1]Faculty of Chemistry,Moscow State University,Leninskie Gory lb3,Moscow 119991,Russia [2]Department of Materials Science,MSU-BIT University,Shenzhen 517182,China [3]Faculty of Materials Science,Moscow State University,Leninskie Gory lb73,Moscow 119991,Russia [4]European Synchrotron Radiation Facility,Avenue des Martyrs 71,Grenoble 38043,France [5]School of Natural Sciences and Mathematics,Ural Federal University,Lenin Ave 51,Ekaterinburg 620000,Russia

出　　处：《Nano Research》2022年第2期898-906,共9页纳米研究（英文版）

基　　金：supported by the Russian Science Foundation(RSF)(No.20-73-10129);AnAE acknowledge RFBR(No.18-29-19105);support in part of SAXS characterization technique development for stacked layered structures.

摘　　要：Structural ordering in the concentrated magnetic colloids containing 50×5 nm hard magnetic disc-like SrFe_(12)O_(19) nanoparticles was investigated by cryogenic scanning electron microscopy,optical microscopy,magnetic measurements,and small-angle X-ray scattering.It was revealed that macroscopically homogeneous magnetic liquid consists of dynamic threads of stacked nanoparticles.The threads align into quasiperiodic arrays with the distances between individual threads of a few micrometers.They also can form pseudodomain structures with -90°domain boundaries realized through T-type thread interconnects.The effects of magnetic attraction and electrostatic repulsion on the equilibrium interplatelet distance in the threads were studied.It was demonstrated that this distance can be tuned by the control of the particles charge and electric double layer screening from Stern layer thickness(-1 nm)to tens of nanometers.It was shown that the permanent magnetic field is not able to cause any structural changes in the ordered magnetic liquid phase,while alternating field draws particles apart by their vibrations.External variation of interparticle distance up to 6%was achieved using an alternating magnetic field of low intensity.Experimental data were complemented by the theoretical models of screened electrostatic interactions between spherical and platelike magnetic particles.The last model provides good predictive power and correlates with the experimental data.The stabilization energy of the condensed phase in the order of 1-10 kBT was derived from the model.An approach allows controlling of an equilibrium interparticle distance and interparticle distance distribution by adjusting the magnetization and surface charge of the particles as well as the ionic strength of the solvent.

关 键 词：HEXAFERRITE FERROFLUID SELF-ASSEMBLY colloidal solution 

分 类 号：TN304[电子电信—物理电子学] TB3[一般工业技术—材料科学与工程]