溶胶-凝胶法制备' Mg '掺杂m型锶六铁氧体(SrFe12O19)的结构和介电性能

Amina Safdar, Ramiza Ali, Aneela Shahzad, Jaala Mishal
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摘要

m型六方铁氧体在磁记录介质、微波器件、微电化学系统、高频器件、磁光器件等方面有着广泛的应用。本研究通过溶胶-凝胶自燃烧技术,合成了化学成分(SrMgxFe12-xO19)为x= 0.00, 0.05, 00.10, 0.15, 0.20的掺杂“镁”的m型锶六方铁氧体,研究了掺杂稀土金属对结构和介电性能的影响。采用傅里叶变换红外光谱(FT-IR)、x射线衍射(XRD)和介电测量等方法研究了掺杂“Mg”的锶六铁体的分子吸收/透射、结构性质和介电响应。x射线衍射分析证实了磁铅石结构。在12.357 ~ 15.375 nm范围内,不同浓度Mg的晶体大小顺序不同。高频波段(500 ~ 515.84 cm-1)表明金属阳离子的振动为四面体位,低频波段(385.35 ~ 375.16 cm-1)表明金属氧键的振动为八面体位,证实了六方结构。在介电常数、损耗、切线损耗、交流电导率、电模量和品质因子随频率图中观察到共振峰。随着镁浓度的增加,材料的介电性能逐渐增强。镁浓度的q因子最佳(x=0.20)。电介质参数表明这些铁氧体纳米颗粒是高频实现的良好申请者。
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Structural and Dielectric Properties of ‘Mg’ Doped M-Type Strontium Hexa-Ferrites (SrFe12O19) Synthesized via Sol-Gel Method
M-type hexagonal ferrites have wide range of applications in magnetic recording media, microwave devices, micro electrochemical systems, high frequency devices, magneto-optical devices and many more. In present research, M-type strontium hexagonal ferrites doped with ‘magnesium’ having chemical composition (SrMgxFe12-xO19) for x= 0.00, 0.05, 00.10, 0.15, 0.20, were synthesized to investigate the influence of rare earth metal doping on the structure and dielectric properties via sol-gel auto combustion technique. Molecular absorption/transmission, structural properties and dielectric response were investigated by Fourier transform infrared (FT-IR) spectroscopy, X-ray diffraction (XRD) and Dielectric measurements of ‘Mg’ doped strontium hexaferrites. X-ray diffraction analysis verified the magneto-plumbite structure. Crystal sizes were found in varying order for different concentrations of ‘Mg’ ranging from 12.357 to 15.375 nm. The FT-IR spectra exhibited higher frequency band (500–515.84 cm-1) indicating tetrahedral site’s vibrations of metallic cations and lower frequency band (385.35–375.16 cm-1) exhibiting octahedral sites due to metallic oxygen bond that confirmed the hexagonal structure. The resonance peaks were observed in dielectric constant, loss, tangent loss, AC conductivity, electric modulus and quality factor versus frequency graphs. The dielectric properties were found to be enhanced gradually by increasing concentration of magnesium. The best Q-factor was found for magnesium concentration (x=0.20). The dielectric parameters specify that these ferrite nanoparticles are good applicants for the higher frequency implementations.
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