Aloe vera Plant Extracted Green Synthesis, Structural and Opto-Magnetic Characterizations of Spinel Co _x Zn_1-x Al₂O₄ Nano-Catalysts

Spinel Co _x Zn_1−x Al₂O₄ (0 ≤ x ≤ 1) nano-catalysts were synthesized by a simple Aloe vera plant extracted green synthesis route. Powder XRD patterns and Rietveld analysis confirmed the formation of single phase, cubic spinel gahnite structure without other impurities. The lattice parameter increased from 8.089 to 8.125 Å with increasing Co²⁺ content. The average crystallite sizes were estimated using Scherrer’s method, and it was found to be in the range of 15.72 nm to 26.53 nm. FT-IR spectra showed vibrational stretching frequencies corresponding to the spinel structure. HRSEM and HR-TEM images showed the features of well particle shaped crystals with nano-sized grains. The elemental compositions of Co, Zn, Al and O were quantitatively obtained from EDX analysis. The band gap energy estimated using Kubelka-Munk method by UV-Visible DRS method, and the values are decreased with increasing the Co²⁺ content (4.12 eV to 3.67 eV), due to the formation of sub bands in between the energy gap. PL spectra showed emission bands in UV as well as in the visible regions for ZnAl₂O₄ and Co-doped ZnAl₂O₄, due to the defect centers acting as the trap levels. VSM measurements revealed that pure ZnAl₂O₄ has diamagnetic, while Co doped ZnAl₂O₄ samples (x = 0.2 to 0.8) have superparamagnetism, whereas the sample CoAl₂O₄ has ferromagnetic in nature. Catalytic oxidation of benzyl alcohol to benzaldehyde was found that the sample Co_0.6Zn_0.4Al₂O₄ showed 93.25% conversion with 99.56% selectivity, whereas for pure ZnAl₂O₄, the conversion was only 86.31% with 92.85% selectivity.