Abstract

A new oval shaped CaTiSiO5 Nano particles were synthesized by wet chemical Co-precipitation and muffle ignition method. The oval shapes of Nano material were confirmed using SEM imaging and spinal packing in crystals were determined on the basis of XRD spectrum. The surface functionalities over Nano material was confirmed using FTIR spectrum elucidating hydroxyl and oxide groups over surface for future water wet ability. Furthermore the porous nature and electronic states in Nano material were elaborated on the basis of UV-Vis. and PL spectral transitions along with matching SEM and XRD data. The very high porosity of this ceramic Nano material was confirmed by BET measurements and future water remediation applications were demonstrated using antimicrobial testing on Klebsiella and membrane water purification activity. Overall this novel ceramic porous Nano material has proved probable application in water purification membranes.

References

1. Amin, K., Abdallah, H.A.M., Roushdy, M.H. and El-Sherbing, S.A., (An Overview of Production and Development of Ceramic Membrane (2016), IJAER, Vol.H, PP - 7708-7721.
2. Amorelli, A.; Evans, J. C.; Rowlands, C. C. J. Chem. Soc., Faraday Trans. 1, (1988), 84, 1723
3. Basheer A.A., New Generation Nano-absorbents for the removal of emerging contaminants in water. Journal of Molecular Liquids,Nethelands,(2018),V.216,pp.583-593.
4. Burggraaf, A. J., Keizer, K., Synthesis of Inorganic Membrane 35; (2009), 38-38.
5. Buxton, G. V.; Greenstock, C. L.; Helman, W. P.; Ross, A. B. J. Phys. Chem. Ref. Data (1988), 17, 513.
6. Connes, J. and Connes, P., Near Infrared Planetary spectra by Fourier Spectroscopy. I. Instruments and results.(1966) 56(7) : 896-910.
7. Egerton, R. F., Physical Principles of Election Microscopy : An Introduction to TEM, SEM and AEM. Springer,(2005) 202
8. Haines, R. I.; McCracken, D. R.; Rasewych, J. B. In Water Chemistry of Nuclear Reactor Systems 5; British Nuclear Energy Society: London, (1989),p 309
9. Khali A., Gondal M.A.,Dastageer M.A.,Synthesis of Nano WO3 and Its Catalytic activity for enhanced Antimicrobial process for Water Purification using laser induced photo-catalysis. Catalysis Communication,(2009),11(3),pp.214-219.
10. Li, W., Zhou, L.; Xing, W., Xu, N. Coagulation-microfiltration for take water purification using ceramic membranes. Desalin. Water Treat. (2010), 18, 239-244.
11. Marcells A., Omole, Issac K., Owino, Sadik, Nano structured Materials for Improving Water Quality: Potential and Risks. Nanotechnology Applications for Clean Water,(2009), pp.233-247.
12. Misra, P., Dubinski, M. eds., Ultraviolet Spectroscopy and UV Lasers. New York : Marcel Dekker (2002) ISBN 978-0-8267-0668-5
13. Savage, N., Diallo M., Nanomaterials and Water Purification: Opportunities and Challenges. Journal of Nanoparticle Research,(2005) 7, pp.331-342
14. Prabhu, V., Patwardhan, A. & Patwardhan, A.W., Fabrication and characterization of Micro-porous Ceramic Membrane based on Keolin and Alumina CIJCT). (2016) Vol.24, PP - 367-373
15. Reimer, L., Scanning Electron Microscopy: Physics of Image formation and Microanalysis. (Springer), (1998), 527.P.
16. The Infracord double-beam spectrophotometer. Clinical Science. (1957) 16 (2)
17. Qu.X, Alvarez P.J.J., Li,Q., Applications of Nano Technology in Water and Wastewater Treatment. Water research, England, (2013),v.47,n.12,pp.3931-3946
18. Zhi-ChuanW., Yong Z., Zhangb L., Fongb H., Silver Nano particles on amidoxime fibres for photo catalytic degradation of organic dyes in wastewater. Applied Surface Science, (2010),257(3),pp.1092-1097