Effect of Nickel Ions Substitution on the Magnetic and Optical Properties of a Nanosized Lithium-Iron Ferrite

IF 0.8 4区 材料科学 Q4 MATERIALS SCIENCE, MULTIDISCIPLINARY Journal of Nano Research Pub Date : 2023-04-17 DOI:10.4028/p-l3c1ie
J. Mazurenko, L. Kaykan, Antony Żywczak, V. Kotsyubynsky, V. Boychuk, Lilia Turovska, I. Vakaliuk
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Abstract

This paper reports on the successful synthesis of fine nanoparticles of nickel-substituted lithium-iron ferrites of composition Li0.5-x/2NixFe2.5-x/2O4 (0.2≤ x ≤1.0) by the sol-gel autocombustion method. It has been found that the alternating current (AC) and direct current (DC) conductivity is preferably tuned due to its dependence on temperature and nickel doping. Analysis of the Arrhenius dependences also confirms the appearance of more than one conduction mechanism upon substitution. The predominance of one type of conductivity over another depends on the concentration of the substituting element. Measurement of the magnetic properties has shown that the substitution of Ni2+ can significantly change the saturation and residual magnetization. Samples of composition Li0.4Ni0.2Fe2.4O4 have the highest saturation magnetization (84.08 emu/g), residual magnetization (15.85 emu/g), and the lowest coercive force (0.18 kOe). All the obtained results indicate a significant effect of the substitution of Ni2+ ions on the structure and properties of Li0.5-x/2NixFe2.5-x/2O4 ferrite nanoparticles.Photocatalytic properties have been obtained by the degradation of Methylene Blue dye under illumination with a halogen lamp. It is shown that an increase in the content of nickel ions leads to a change in the type of conductivity: from n-type (unsubstituted lithium pentaferrite) to p-type (with substitution x = 0.8 and higher). These systems are characterized by hopping conduction realized by octa-positions according to the mechanisms Fe3++e-↔Fe2+, and Ni3+↔Ni2++h+. The predominance of one or another mechanism depends on the content of nickel ions. The optical band gap ranges from 1.4 to 2.25 eV. Samples with nickel content x = 0.4 and x = 0.8 have shown the best degradation ability, which is 97% within 160 min for Methylene Blue.
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镍离子取代对纳米锂铁铁氧体磁性和光学性能的影响
本文报道了采用溶胶-凝胶自燃烧法成功合成了组成为Li0.5-x/2NixFe2.5-x/2O4(0.2≤x≤1.0)的镍取代锂-铁铁氧体纳米颗粒。研究发现,由于其对温度和镍掺杂的依赖性,交流电(AC)和直流电(DC)的电导率可以较好地调谐。对阿伦尼乌斯依赖性的分析也证实了替代时出现的不止一种传导机制。一种电导率优于另一种电导率取决于取代元素的浓度。磁性能测试表明,Ni2+的加入能显著改变饱和和剩余磁化强度。Li0.4Ni0.2Fe2.4O4样品的饱和磁化强度最高(84.08 emu/g),剩余磁化强度为15.85 emu/g,矫顽力最低(0.18 kOe)。结果表明,Ni2+离子的取代对Li0.5-x/2NixFe2.5-x/2O4铁氧体纳米颗粒的结构和性能有显著影响。在卤素灯照射下,对亚甲基蓝染料进行了光催化降解。结果表明,镍离子含量的增加导致电导率类型的变化:从n型(未取代的五铁锂)到p型(取代x = 0.8及更高)。这些系统的特点是根据Fe3++e-↔Fe2+和Ni3+↔Ni2+ h+的机制,通过八位数实现跳跃传导。一种或另一种机制的优势取决于镍离子的含量。光学带隙范围为1.4 ~ 2.25 eV。镍含量x = 0.4和x = 0.8的样品对亚甲基蓝的降解能力最好,在160 min内降解率为97%。
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来源期刊
Journal of Nano Research
Journal of Nano Research 工程技术-材料科学:综合
CiteScore
2.40
自引率
5.90%
发文量
55
审稿时长
4 months
期刊介绍: "Journal of Nano Research" (JNanoR) is a multidisciplinary journal, which publishes high quality scientific and engineering papers on all aspects of research in the area of nanoscience and nanotechnologies and wide practical application of achieved results. "Journal of Nano Research" is one of the largest periodicals in the field of nanoscience and nanotechnologies. All papers are peer-reviewed and edited. Authors retain the right to publish an extended and significantly updated version in another periodical.
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