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Because of the synergistic effect of the individual nanomaterials, nanocomposites are becoming an important
class of materials, allowing the creation of end-products with different properties and greater performance than when used
individually. This study aims to create magnetite nanoparticles (MNPs) from iron ore and nanocellulose fibre (CNF) from
sugar bagasse to make magnetite–cellulose nanocomposites. X-ray diffraction and Fourier-transform infrared spec troscopy were used to confirm the prepared nanomaterials, and scanning electron microscopy was used to investigate the
morphology of the nanomaterials. The nanocomposites were created using two methods: (1) adding CNF before the MNPs
precipitated and (2) adding CNF after the MNPs precipitated. There was a difference in crystallite size, with the smallest
being 23 nm for the one prepared before precipitation and 31 nm for pure MNPs. The magnetic properties of the as prepared nanomaterials were also investigated using the vibrating sample magnetometer technique. MNPs and MNPs–
CNF nanocomposites have superparamagnetic properties, with nearly zero coercivity for all samples and saturation
magnetizations of 42.8, 30.7, and 23.2 emu g–1 for pure MNPs, MNPs–CNF (before precipitation) and MNPs–CNF (after
precipitation), respectively. Thermogravimetric analysis was used to investigate the thermal behaviour of the
nanocomposite. The incorporation of cellulose nanofibre prevented aggregation while having a negligible effect on
thermal stability |
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