Synthesis and Characterization of LiZn Ferrites/Carbon Nanotubes (CNTs) Temperature Control Biomaterials

Zhao Jun Liu; Kang Ning Sun; Ai Min Li; Xiao Ning Sun; Shu Pin Zhang

doi:10.4028/www.scientific.net/KEM.680.189

Paper Titles

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Ceramic-Metal Functionally Gradient Multilayer Composite Fabricated by Combustion Synthesis in High-Gravity Field
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High Temperature Bonding Effect of the Room-Temperature-Curing Phosphate Adhesive for C/C Composites
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Structure and Dielectric Properties of Ce and Ca Co-Doped BaTiO₃ Ceramics
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Synthesis and Characterization of LiZn Ferrites/Carbon Nanotubes (CNTs) Temperature Control Biomaterials
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Preparation and Photocatalytic Properties of La, Ceand Nonmetal N Co-Doped TiO₂
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Preparation and Performance of Mesoporous TiO₂ Photocatalyst with P123 as Template
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Synthesis of Pyrochlore-Type K₂Ta₂O₆ with High Photocatalytic Activity for Dye Degradation
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Combustion Synthesis of La_0.65Sr_0.35MnO₃ and its Sensing Properties for NO₂
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Synthesis and Characterization of LiZn Ferrites/Carbon Nanotubes (CNTs) Temperature Control Biomaterials

Abstract:

In this study, LiZn ferrites with different content of CNTs (1%-9%) were successfully prepared by a sol-gel method. X-ray diffraction pattern exhibit a relatively high crystallinity of the Li_0.25Zn_0.5Fe_2.25O₄/CNTs composite, and the CNTs still exist after acid treatment and subsequent heat treatment. Then the composite was characterized by scanning electron microscope (SEM) and transmission electron microscope (TEM), the results demonstrate that the particles are nearly spherical in shape and agglomerated to some extent. By a sol-gel method and subsequent calcination, the temperature of LiZn ferrites/CNTs temperature control biomaterials gradually increase and maintain at a certain temperature in the alternating magnetic field, so it can be a potential material used for hyperthermia applications.