Abstract
Oval shaped AlCaSi5O15 nanoparticles were synthesized by wet chemical co-precipitation and Muffle ignition method. The oval shapes of nanomaterial were confirmed using SEM imaging and spinal packing in crystals were determined on the basis of XRD spectrum. The surface functionalities over nanomaterial were confirmed using FTIR spectrum elucidating hydroxyl and oxide groups over surface for future water wet ability. Furthermore, the porous nature and electronic states in nanomaterial were elaborated on the basis of UVVis. and PL spectral transitions along with matching SEM and XRD data. The very high porosity of this ceramic nanomaterial was confirmed by BET measurements. Future water remediation applications were demonstrated using antimicrobial testing on Salmonella typhe and membrane water purification activity.
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