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Synthesis and Characterization of Fe3O4: Porous Carbon udNanocomposites for Biosensor Application

机译：Fe3O4：多孔碳的合成与表征用于生物传感器应用的纳米复合材料

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Fe3O4:Porous carbon (Fe3O4 :PC) nano-magnetic composites were prepared by using different weight fractions of acid treated PC by the chemical co-precipitation route and annealed at 573 K, 773 K and 973 K temperatures in inert N2 gas atmosphere for 2 hrs to obtain desired stoichiometry of nanocomposites. The structural, morphological and magnetic properties of these composites were characterized by powder XRD, TEM, EPR and VSM analytical techniques. The crystallinity of the composites, g-value and spin concentration increases with increasing annealing temperature. TEM images confirmed the formation of nanosized ferrite nanoprticles whose size increases from 23 nm to 54 nm on increasing annealing temperature. Porous carbon increases porosity, coercivity and reduces saturation magnetization of these prepared nanocomposites.

机译：Fe3O4：多孔碳（Fe3O4：PC）纳米磁性复合物是通过化学共沉淀途径使用不同重量分数的酸处理过的PC制备的，并在惰性N2气体气氛中于573 K，773 K和973 K退火2 hrs以获得所需的纳米复合材料的化学计量。通过粉末XRD，TEM，EPR和VSM分析技术对这些复合材料的结构，形貌和磁性进行了表征。复合材料的结晶度，g值和自旋浓度随退火温度的升高而增加。 TEM图像证实了纳米铁素体纳米颗粒的形成，随着退火温度的升高，其尺寸从23 nm增加到54 nm。多孔碳增加了这些制备的纳米复合材料的孔隙率，矫顽力并降低了饱和磁化强度。

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Arora Manju; Zargar R. A.;
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机译：Fe3O4的合成与表征：用于生物传感器应用的多孔碳纳米复合材料

Synthesis and Characterization of Fe3O4: Porous Carbon udNanocomposites for Biosensor Application

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