On the synthesis and optical absorption studies of nano-size magnesium oxide powder Original Research Article

Magnesium oxide (MgO) nano-size powder is synthesized using magnesium nitrate hexahydrate and oxalic acid as precursors with ethanol as a solvent. The process involves gel formation, drying at 100 °C for 24 h to form magnesium oxalate dihydrate [α-MgC2O4·2H2O] and its decomposition at 500, 600, 800, and 1000 °C for 2 h to yield MgO powder (average crystallite size ∼6.5–73.5 nm). The sol–gel products at various stages of synthesis are characterized for their thermal behaviour, phase, microstructure, optical absorption, and presence of hydroxyl and other groups like Odouble bond; length as m-dashCdouble bond; length as m-dashO, Cdouble bond; length as m-dashO, C–C, etc. MgO powder is shown to possess an f.c.c. (NaCl-type) structure with lattice parameter increasing with decrease in crystallite size (tav); typical value being ∼4.222(2) Å for tav∼6.5 nm as against the bulk value of 4.211 Å. Infrared absorption has shown MgO to be highly reactive with water. Also, a variety of F- and M-defect centres found in MgO produce energy levels within the band gap (7.8 eV), which make it attractive for application in plasma displays for increasing secondary electron emission and reducing flickering effects. The possible application of the intermediate sol–gel products, viz., α-MgC2O4·2H2O and anhydrous magnesium oxalate (MgC2O4) in understanding the plants and ESR dosimetry, respectively, has also been suggested.