Materials (Apr 2022)

Elucidating the Effects of Reaction Time on the Physicochemical Characterization of Valorized Synthesized Alumina

  • Aiman A. Bin Mokaizh,
  • Jun Haslinda Shariffuddin,
  • Abdullah O. Baarimah,
  • Amin Al-Fakih,
  • Abdullah Mohamed,
  • Salem O. Baarimah,
  • Al-Baraa Abdulrahman Al-Mekhlafi,
  • Hamoud Alenezi,
  • Olusegun Abayomi Olalere,
  • Anwar Ameen Hezam Saeed

DOI
https://doi.org/10.3390/ma15093046
Journal volume & issue
Vol. 15, no. 9
p. 3046

Abstract

Read online

Aluminum waste-can management in Malaysia has recently become a serious environmental and public health issue, particularly in metropolitan areas. This has prompted the need to valorize these waste-cans into value-added products using the most economical and environmentally friendly techniques. In this study, the sol–gel technique was used to synthesize high-quality alumina from the aluminum waste-cans collected. From this method, the observed peaks of the synthesized alumina were identified as diaspore (α-AlO(OH)), boehmite (γ-AlO(OH)), aluminum oxide, or gamma-alumina (γ-Al2O3) crystalline structure and corundum. The morphological configuration, microstructure, and functional group properties of the synthesized alumina were evaluated. All the synthesized alumina exhibited a non-spherical shape and appeared to have hexagonal-like shape particles. Moreover, the XRD patterns of the synthesized alumina AL-6-30 and AL-12-30 exhibited a small angle (1–10°) with no XRD peak, which indicated a mesoporous pore structure with no long-range order. The overall results of γ-alumina synthesized from the aluminum waste-cans showed an optimal condition in producing a highly structured γ-alumina with excellent surface-area characteristics. The synthesized alumina exhibited stronger and highly crystalline functional characteristics almost comparable with the commercially available brands on the market.

Keywords