At present times, the Nano-science is considered as the main focus among the today researchers/analysts because of its extreme and excellent property and reduced dimensions effectual superior application in numerous areas of science and technology. The current work emphasized the Synthesis of SnO2 nano stuffs via microwave assisted chemical co-precipitation techniques. The samples have been calcined at temperature200oC,400oC,600oC and 800oC for 2 hours in muffle furnace and obtained powdered form samples through grinded in agate mortar. The structural analysis and compositional investigations of resultant calcined samples have been investigated through the diffraction of X-Rays, imaging through electron microscopy such as FESEM and magnetic properties were accessed via VSM tools whereas, IR spectroscopy was used to functional group present in the samples. The various outcomes of the X-Ray diffraction patterns revealed about the samples possess crystalline nature of tetragonal structure geometry, the average grain size obtained by adopting the Debye Scherrer relation andwastobe12.66 nm, 14.50 nm and 16.07 nm and 20.82 nm for and for SnO2 nano samples calcined at temperature200oC,400oC,600oC and 800oCfor 2 hours respectively. The IR spectroscopic peak at wavenumber position 2996 cm-1 confirmed the vibrations of water molecules which were present in atmosphere air of samples and peak at position1086 cm-1 indicate the presence of carbonate residues whereas additional peaks at positions nearly 615 cm-1 for samples calcined at 400oC and beyond attributed O-Sn-O stretching and confirmed the formation of SnO2 however, the solder peak at observed at 575 cm-1 for samples calcined at 200oC assigned to HO-Sn-OH stretching vibrations of Sn(OH)2 molecules . The perusals of FESEM Images of SnO2 nano crystallites shows that the formed nano size grains possess uniformity in size, cluttered in structure and truncated spherically in form. VSM data reflects that the samples formed are ferromagnetic in nature and novel calcined samples gradually enhanced their magnetic characteristics with rise of calcination temperature upto 600oC/2hrs and then losses magnetic characteristics for sample calcined at 600oC/2hrs.
SnO2 nano-crystalline, XRD, FTIR, FESEM.
. Calcinations Temperature Oriented Structural and Magnetic Properties of Sno2±µ Nano-Crystalline. Indian Journal of Modern Research and Reviews. 2026; 4(SP1):161-165
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