Ethanol Gas Sensing of Mn-Doped CoFe$_{2}$O $_{4}$ Nanoparticles

Devi P. I.; Rajkumar N.; Renganathan B.; Sastikumar D.; Ramachandran K.

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Ethanol Gas Sensing of Mn-Doped CoFe$_{2}$O $_{4}$ Nanoparticles

机译：Mn掺杂的CoFe $ _ {2} $ O $ _ {4} $纳米颗粒的乙醇气感测

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摘要

Undoped and Mn-doped cobalt ferrite (CoFe $_{2}$O $_{4}$) nanoparticles were synthesized and characterized for thermal conductivity and magnetic properties. Room temperature ferromagnetism and an increase in saturation magnetization due to Mn doping (65.4 emu/g for 3 at.% of Mn and 20.8 emu/g for undoped CoFe $_{2}$O $_{4}$ nanoparticles) are observed. The ethanol gas sensitivity of undoped and Mn-doped (3 at.%) CoFe $_{2}$O $_{4}$ nanoparticles were experimented at ambient temperature using optical fiber based on clad-modified method. By modifying the clad exposure to gas vapor, the sensitivities were estimated to be 7 and 12 counts/ 100 ppm for undoped and Mn-doped CoFe$_{2}$ O$_{4}$ nanoparticles, respectively, showing significant enhancement in ethanol gas sensitivity.

机译：合成了未掺杂和锰掺杂的钴铁氧体（CoFe $ _ {2} $ O $ _ {4} $）纳米粒子，并对其导热性和磁性进行了表征。观察到室温铁磁性和由于锰掺杂引起的饱和磁化强度增加（3原子％的锰为65.4 emu / g，未掺杂的CoFe $ _ {2} $ O $ _ {4} $纳米粒子为20.8 emu / g）。在室温下使用基于包层改性方法的光纤对未掺杂和锰掺杂（3 at。％）CoFe $ _ {2} $ O $ _ {4} $纳米粒子的乙醇气体敏感性进行了实验。通过改变对气体蒸气的复合暴露，未掺杂和Mn掺杂的CoFe $ _ {2} $ O $ _ {4} $纳米颗粒的灵敏度分别为7和12个计数/ 100 ppm，显示出显着增强乙醇气体的敏感性。

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来源
《Sensors Journal, IEEE》 |2011年第6期|p.1395-1402|共8页
作者
Devi P. I.; Rajkumar N.; Renganathan B.; Sastikumar D.; Ramachandran K.;
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作者单位

Designation: Research Scholar, School of Physics, Madurai Kamaraj University, Madurai,;

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正文语种 eng
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Fiber-optic sensor; photoacoustics (PAs); refractive index; spinel ferrites;

机译：光纤传感器;光声（PAs）;折射率;尖晶石铁氧体;

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Ethanol Gas Sensing of Mn-Doped CoFe$_{2}$O $_{4}$ Nanoparticles

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