Open Access Journal

ISSN : 2456-1304 (Online)

International Journal of Engineering Research in Electronics and Communication Engineering(IJERECE)

Monthly Journal for Electronics and Communication Engineering

Open Access Journal

International Journal of Science Engineering and Management (IJSEM)

Monthly Journal for Science Engineering and Management

ISSN : 2456-1304 (Online)

Evaluation of Biomedical Activity of ZnO Coated Bionanocomposites Film

Author : Rebika Baruah 1 Archana Moni Das 2

Date of Publication :13th April 2022

Abstract: Bionanocomposites materials are the ideal alternative for petroleum-based products. They solve not only the global warming issue but also the problems of multidrug-resistant pathogens. We have synthesized a biopolymer-based ZnO nanocomposites film by using cellulose as supporting agent and the extract of Livistona jekinsiana as reducing agents. We also utilized the antibacterial property of chitosan and superior delivery property of -cyclodextrin in the synthesis of bionanocomposites. The new and novel cellulose/chitosan/-cyclodextrin/ Livistona jekinsiana/ZnO bionanocomposites film (CCCLZF) as a promising biomedical applicant was utilized for the first time. Several characteristics were performed to confirm the shape, size, structure, chemical composition, morphology, thermal properties, stability of the films, they are UV-Visible spectroscopy, FTIR spectroscopy, XRD pattern, SEM, and TEM images, EDS, TGA, DTA, DLS, and Zeta potential. To study the biomedical property of the CCCLZF; the antimicrobial, antioxidant, and anti-inflammatory activity of the film was examined. Drug delivery of the film was also investigated. All the experiments obtained good purposeful results. Therefore, CCCLZF will be a promising material in the pharmaceutical and food packaging industry

Reference :

    1. R. A. Ilyas, S. M. Sapuan, M. R. Ishak, and E. S. Zainudin, “Water Transport Properties of Bio-Nanocomposites Reinforced by Sugar Palm (Arenga Pinnata) Nanofibrillated Cellulose,” J. Adv. Res. Fluid Mech. Therm. Sci., vol. 51, no. 2, pp. 234-246, November 2018.
    2. M. Alavi, N. Karimi, and I. Salimikia, “Phytosynthesis of zinc oxide nanoparticles and its antibacterial, antiquorum sensing, antimotility, and antioxidant capacities against multidrug resistant bacteria,” J. Ind. Eng. Chem., vol.72, pp. 457-473, April 2019.
    3. S. Thomas, J. Kuruvilla, and S.K. Malhotra, “Electrical and optical studies of organic light emitting devices using SWCNTs-polymer nanocomposites,” Polym. Compos. Biocompos., Vol. 3, pp. 1-608, January 2013
    4.  E. Ruiz-Hitzky, M. Darder, and P. Aranda, in: E. Ruiz-Hitzky, K. Ariga, Y.M. Lvov (Eds.), Bio-Inorganic Hybrid Nanomaterials, Wiley-VCH, Weinheim, pp. 1–40, December 2007.
    5. J.W. Rhim, H.M. Park, C.S. Hac, “Bio-nanocomposites for food packaging applications,” Prog. Polym. Sci., vol. 38, pp. 1635-1689, October-November 2013.
    6. M.C. Maria, K. Kaviyarasu, and A. Raja, “Photocatalytic decomposition effect of erbium doped cerium oxide nanostructures driven by visible light irradiation: investigation of cytotoxicity, antibacterial growth inhibition using catalyst,” J Photochem Photobiol B Biol., Vol. 185, pp. 275-282, August 2018.
    7. Z.A.M. Kebir, M. Adel, and M. Adjdir, “Preparation and antibacterial activity of silver nanoparticles intercalated kenyaite materials,” Mater Res Express., Vol. 5, pp. 085021, July 2018.
    8. H.L. Su, C.C. Chou, and D.J. Hung,” The disruption of bacterial membrane integrity through ROS generation induced by nanohybrids of silver and clay,” Biomaterials, vol. 30, no. 30, pp. 5979-5987, October 2009.
    9. S.P. Raut, R.V. Ralegaonkar, and S.A. Mandavgane, “Development of sustainable construction material using industrial and agricultural solid waste: a review of waste-create bricks,” Constr Build Mater., Vol. 25, no. 10, pp. 4037-4042, October 2011.
    10. M. Rinaudo, “Chitin and chitosan: properties and applications,” Prog Polym Sci., vol. 31, no. 7, pp. 603-632, July 2006.
    11. A. Gogoi, And K.C. Sarma, “Synthesis of the novel β-cyclodextrin supported CeO2 nanoparticles for the catalytic degradation of methylene blue in aqueous suspension,” Mater. Chem. Phys., vol. 194, pp. 327-336, July 2017.
    12. M. E. Navgire, P. Gogoi, and B. Mallesham, “β-Cyclodextrin supported MoO3–CeO2 nanocomposite material as an efficient heterogeneous catalyst for degradation of phenol.” RSC Adv., vol. 6, pp. 28679-28687, March 2016.
    13. F.J. Otero-Espinar, J.J. Torres-Labandeira, and C. Alvarez-Lorenzo, “Cyclodextrins in drug delivery systems,” J. Drug Deliv. Sci. Technol.,vol. 20, no. 4, pp. 289-301, 2010.
    14. M. S. Geetha, H. Nagabhushana, and H. N. Shivananjaiah,” Green mediated synthesis and characterization of ZnO nanoparticles using Euphorbia jatropa latex as reducing agent,” J SCI: ADV MATER DEV, vol. 1, no. 3, pp. 301-310, September 2016.
    15. G. Sangeetha, S. Rajeshwari, and R. Venckatesh, “Green synthesis of zinc oxide nanoparticles by Aloe barbadensis miller leaf extract: Structure and optical properties”, Mater. Res. Bull., vol. 46, no. 12, pp. 2560-2566, December 2011.
    16. A. Happy, S. V. Kumar, and S. Rajeshkumar, “A review on green synthesis of zinc oxide nanoparticles – An eco-friendly approach,” Resource-Efficient Technologies, vol. 3, no. 4, pp. 403-417, December 2017.
    17. R. K. Singh, R. C. Srivastava, T. K. Mukherjee. “Toko-Patta(LivistonajenkinsianaGriff): Adi community and conservation of culturally important endangered tree species in eastern Himalaya,” Indian J. Tradit. Knowl., vol. 9, pp. 231-241, April 2010.
    18. J. Cai, and L. Zhang, “Rapid dissolution of cellulose in LiOH/urea and NaOH/urea aqueous solutions,” Macromol Biosci., vol. 5, no. 6, pp. 539-48, June 2005.
    19. R. Baruah, A. Yadav, and A.M. Das, “Livistona jekinsiana fabricated ZnO nanoparticles and their detrimentaleffect towards anthropogenic organic pollutants and human pathogenic bacteria,” SPECTROCHIM ACTA A., vol. 251, pp. 119459, April 2021.
    20. H. Lee, Y. K. Park, S. J. Kim, B. H. Kim, H. S. Yoon, and S. C. Jung, “Rapid degradation of methyl orange using hybrid advanced oxidation process and its synergistic effect,” J. Ind. Eng. Chem., vol. 35, pp. 205-210, March 2016.

Recent Article