Low Temperature Synthesis of α-Fe2O3 Nano-rods Using Simple Chemical Route

M. Farahmandjou; F. Soflaee

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Low Temperature Synthesis of α-Fe2O3 Nano-rods Using Simple Chemical Route

机译：简单化学路线低温合成α-Fe2O3纳米棒

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Iron oxide (Fe2O3) is widely used as a catalyst, pigment and gas sensitive material. In this article, α-Fe2O3 nano-rods were first synthesized via a simple chemical method using iron(III) nitrate 9- hydrate (Fe(NO3)3.9H2O) as precursor. XRD pattern showed that the iron oxide nanoparticles exhibited alpha-Fe2O3 (hematite) structure in nanocrystals. The single-phase α- Fe2O3 nano-rods were prepared when the samples calcined at 500 °C. The smallest particle size was found to be 18 nm in diameter. The SEM studies depicted rod-like shaped particles with formation of clusters by increasing annealing temperature. The sharp peaks in FTIR spectrum determined the purity of Fe2O3 nanoparticles and absorbance peak of UV-Vis spectrum showed the small bandgap energy of 2.77 ev. The VSM result showed a coercive field and saturation magnetism around 90 G and 9.95 emu/g, respectively.

机译：氧化铁（Fe2O3）被广泛用作催化剂，颜料和气体敏感材料。在本文中，首先通过简单的化学方法使用硝酸铁（III）9水合物（Fe（NO3）3.9H2O）作为前体合成α-Fe2O3纳米棒。 XRD图谱表明，氧化铁纳米颗粒在纳米晶体中表现出α-Fe2O3（赤铁矿）结构。当样品在500°C下煅烧时，制备了单相α-Fe2O3纳米棒。发现最小的粒径为直径18nm。 SEM研究描绘了通过增加退火温度而形成团簇的棒状颗粒。 FTIR光谱中的尖峰确定了Fe2O3纳米颗粒的纯度，UV-Vis光谱的吸收峰显示出2.77 ev的小带隙能量。 VSM结果显示矫顽场和饱和磁性分别约为90 G和9.95 emu / g。

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《Journal of Nanostructures》 |2014年第4期|共6页
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M. Farahmandjou; F. Soflaee;
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Low Temperature Synthesis of α-Fe2O3 Nano-rods Using Simple Chemical Route

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