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A review on polymer – ceramics new bionanocomposites for antibacterial applications

By: Hind Ahmed, Hayder M. Abduljalil, Ahmed Hashim

Key Words: Antibacterial, oxide, nanocomposites, carbide, biopolymer.

Int. J. Biosci. 14(5), 270-275, May 2019.

DOI: http://dx.doi.org/10.12692/ijb/14.5.270-275

Certification: ijb 2019 0029 [Generate Certificate]

Abstract

The nanocomposites applications are quite promising in the fields of packaging, medicine, optical integrated circuits, coatings, drug delivery, sensors, aerospace, packaging materials, adhesives, consumer goods. Etc. This review includes new nanocomposites consist of biopolymer and ceramics nanoparticles for antibacterial applications with high activity, low cost and low weight. The results showed that the nanocomposites have high activity as antibacterial materials.

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A review on polymer – ceramics new bionanocomposites for antibacterial applications

Agool IR, Kadhim KJ, Hashim A. 2017. Synthesis of (PVA-PEG-PVP-ZrO2) Nanocomposites for Energy Release and Gamma Shielding Applications. International Journal of Plastics Technology 21(2).

https://doi.org/10.1007/s12588-017-9196-1.

Agool IR, Kadhim KJ, Hashim A. 2017. Fabrication of new nanocomposites: (PVA-PEG-PVP) blend-zirconium oxide nanoparticles) for humidity sensors. International Journal of Plastics Technology 21(2).

https://doi.org/10.1007/s12588-017-9192-5.

Ahmed H, Abduljalil HM, Hashim A. 2019. Analysis of Structural, Optical and Electronic Properties of Polymeric Nanocomposites/Silicon Carbide for Humidity Sensors. Transactions on Electrical and Electronic Materials.

https://doi.org/10.1007/s42341-019-00100-2

Ahmed H, Hashim A, Abduljalil H. 2019. Analysis of Structural, Electrical and Electronic Properties of (Polymer Nanocomposites/ Silicon Carbide) For Antibacterial Application. Egyptian Journal of Chemistry.

https://doi.org/10.21608/EJCHEM.2019.6241.1522.

Akbarzadeh R, Ghaedi M, Kokhdan SN, Jannesar R, Sadeghfar F, Sadri F, Tayebi L. 2018. Electrochemical hydrogen storage, photocatalytical and antibacterial activity of FeAg bimetallic nanoparticles supported on TiO2, International Journal of Hydrogen Energy 43(39), 18316-18329.

Akhavan O. 2009. Lasting antibacterial activities of Ag–TiO2/Ag/a-TiO2nanocomposite thin film photocatalysts under solar light irradiation. Journal of Colloid and Interface Science 336(1), 117-124.‏

Altan M, Yildirim H. 2014. Comparison of antibacterial properties of nano TiO2 and ZnO particle filled polymers. ActaPhysica Polonica A 125(2).

Ansari MA, Khan HM, Khan AA, Sultan A, Azam A, Shahid M, Shujatullah F. 2011. Antibacterial activity of silver nanoparticles dispersion against MSSA and MRSA isolated from wounds in a tertiary care hospital of North India 2(4), 34-42.

Brayner R, Ferrari-Iliou R, Brivois N, Djediat S, Benedetti MF, Fiévet F. 2006. Toxicological impact studies based on Escherichia coli bacteria in ultrafine ZnO nanoparticles colloidal medium. Nano letters 6(4), 866-870.

Etacheri V, Di Valentin C, Schneider J, Bahnemann D, Pillai SC. 2015. Visible-light activation of TiO2photocatalysts: Advances in theory and experiments.  Journal of Photochemistry and Photobiology C: Photochemistry Reviews 25, 1-29.‏

Etheridge ML, Campbell SA, Erdman AG, Haynes CL, Wolf SM, McCullough J. 2013. The big picture on nanomedicine: the state of investigational   and approved nanomedicine products. Nanomedicine: nanotechnology, biology and medicine 9(1), 1-14.

Feng Y, Tan H, Li C, Wang Y, Zhang Y, Wen P, Xu L. 2017. Preparation and characterization of nanoTiO2 antibacterial corrugating medium. Journal of Nanoscience and Nanotechnology 17(12), 8912-8917.‏

Gupta K, Singh RP, Pandey A, Pandey A. 2013. Photocatalytic antibacterial performance of TiO2 and Ag-doped TiO2 against S. aureus. P. aeruginosa and E. coli. Beilstein journal of nanotechnology 4(1), 345-351.‏

Hadi A, Hashim A. 2017. Development of a new humidity sensor based on (carboxymethyl cellulose–starch) blend with copper oxide nanoparticles. Ukrainian Journal of Physics 62(12).

http://dx.doi.org/10.15407/ujpe62.12.1044.

 Hamad ZS, Hashim A. 2018. Biopolymer blend or titanium nitride nanoparticles: synthesis and pressure sensor characterization for environmental application. Journal of Biodiversity and Environmental Sciences 13(6).

Hao D, Yang Z, Jiang C, Zhang J. 2014. Synergistic photocatalytic effect of TiO2 coatings and p-type semiconductive SiC foam supports for degradation of organic contaminant. Applied Catalysis B: Environmental 144, 196-202.‏

Hashim A, Hadi A. 2017. Novel lead oxide polymer nanocomposites for nuclear radiation shielding applications. Ukrainian Journal of Physics 62(11).

http://dx.doi.org/10.15407/ujpe62.11.0978.

Hashim A, Hadi A. 2018.  Novel Pressure Sensors Made From Nanocomposites (Biodegradable Polymers–Metal Oxide Nanoparticles): Fabrication and Characterization. Ukrainian Journal of Physics 63(8).

https://doi.org/10.15407/ujpe63.8.754

Hashim A, Hadi A. 2017. Synthesis and characterization of novel piezoelectric and energy storage nanocomposites: biodegradable materials–magnesium oxide nanoparticles. Ukrainian Journal of Physics 62(12).

http://dx.doi.org/10.15407/ujpe62.12.1050.

Hashim A, Hadi Q. 2018. Structural, electrical and optical properties of (biopolymer blend/ titanium Carbide) nanocomposites for low cost humidity sensors. Journal of Materials Science: Materials in Electronics 29, 11598–11604.

https://doi.org/10.1007/s10854-018-9257-z.

Hashim A, Hadi Q. 2018. Synthesis of Novel (Polymer Blend-Ceramics) Nanocomposites: Structural, Optical and Electrical Properties for Humidity Sensors. Journal of Inorganic and Organometallic Polymers and Materials 28(4).

https://doi.org/10.1007/s10904-018-0837-4.

Hashim A, Agool IR, Kadhim KJ. 2018. Novel of (Polymer Blend-Fe3O4) Magnetic Nanocomposites: Preparation and Characterization for Thermal Energy Storage and Release, Gamma Ray Shielding, Antibacterial Activity and Humidity Sensors Applications. Journal of Materials Science: Materials in Electronics 29(12).

https://doi.org/10.1007/s10854-018-9095-z

Hashim A, Hamad ZS. 2018. Low cost and flexible biopolymers (polyvinyl alcohol-poly-acrylic acid)/niobium carbide new nanocomposites for sensors. Journal of Biodiversity and Environmental Sciences 13(6).

Jaleh B, Madad MS, Tabrizi MF, Habibi S, Golbedaghi R, Keymanesh MR. 2011. UV-degradation effect on optical and surface properties of polystyrene-TiO2nanocomposite film.  Journal of the Iranian Chemical Society 8(1), S161-S168.‏

Kadhim KJ, Agool IR, Hashim A. 2016. Synthesis of (PVA-PEG-PVP-TiO2) Nanocomposites for Antibacterial Application. Materials Focus 5(5), https://doi.org/10.1166/mat.2016.1371

Kadhim KJ, Agool IR, Hashim A. 2017. Effect of Zirconium Oxide Nanoparticles on Dielectric Properties of (PVA-PEG-PVP) Blend for Medical Application. Journal of Advanced Physics 6(2).

https://doi.org/10.1166/jap.2017.1313.

Kaur A, Kaur MA, Shahi MN. 2012. How nanotechnology works in medicine. International Journal of Electronics and Computer Science Engineering 1(4), 2452-2459.‏

Mirmohseni A, Rastgar M, Olad A. 2019. PANI‐chitosan‐TiO2 ternary nanocomposite and its effectiveness on antibacterial and antistatic behavior of epoxy coating. Journal of Applied Polymer Science 136(23).

Monzillo V, Dalla Valle C, Corbella M, Percivalle E, Sassera D, Scevola D, Marone P. 2014. Antibacterial activity and cytotoxic effect of SIAB-GV3. New Microbiol 37, 535-41.‏

Omar MB, Matoussi A. 2012. Dielectric and conductivity investigations of rutile titanium dioxide single crystals. In Electrical Insulation and Dielectric Phenomena 261, 467-470.

Rashid FL, Hadi A, Al-Garah NH, Hashim A. 2018. Novel Phase Change Materials, MgO Nanoparticles, and Water Based Nanofluids for Thermal Energy Storage and Biomedical Applications. International Journal of Pharmaceutical and Psychopharmacological Research 8(1).

Ruhal A, Rana JS, Ruhal P, Kumar A, Ruhil M, Ram C. 2013. Antimicrobial nanocomposite of silver and gelatin nanofibers for medical applications. International Journal of Technology Research and Engineering 1, 177-182.‏

Singh M, Singh S, Prasad S, Gambhir IS. 2008. Nanotechnology in medicine and antibacterial effect of silver nanoparticles. Digest Journal       of Nanomaterials and Biostructures 3(3), 115-122.‏

Upadhyay VS, Dubey SK, Singh A, Tripathi S. 2014. Structural, optical and morphological properties of PVA/Fe2O3 nanocomposite thin films. IJCPS 3(43).

Villatte G, Massard C, Descamps S, Sibaud Y, Forestier C, Awitor KO. 2015. Photoactive TiOantibacterial coating on surgical external fixation pins for clinical application.  International Journal of Nanomedicine 10(3367).

Hind Ahmed, Hayder M. Abduljalil, Ahmed Hashim.
A review on polymer – ceramics new bionanocomposites for antibacterial applications.
Int. J. Biosci. 14(5), 270-275, May 2019.
https://innspub.net/ijb/review-polymer-ceramics-new-bionanocomposites-antibacterial-applications/
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