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Nano-boron as an Antibacterial Agent for Functionalized Textiles

Published online by Cambridge University Press:  28 July 2015

Wazir Akbar
Affiliation:
Ozyegin University, Department of Mechanical Engineering, Nisantepe Mevki, Orman Sokak, No 13, Alemdag, Cekmekoy, Istanbul, Turkey
Ayse Karagoz
Affiliation:
Ozyegin University, Department of Mechanical Engineering, Nisantepe Mevki, Orman Sokak, No 13, Alemdag, Cekmekoy, Istanbul, Turkey
G.Bahar Basim*
Affiliation:
Ozyegin University, Department of Mechanical Engineering, Nisantepe Mevki, Orman Sokak, No 13, Alemdag, Cekmekoy, Istanbul, Turkey
Mohamed Noor
Affiliation:
Chemical and Environmental Sciences Department, University of Limerick, Ireland
Tofail Syed
Affiliation:
Chemical and Environmental Sciences Department, University of Limerick, Ireland
Jacob Lum
Affiliation:
Oregon State University,Department of Chemical Engineering, 103 Gleeson Hall, Corvallis,97331, Oregon, USA.
Merve Unluagac
Affiliation:
Kivanc Tekstil, Mersin Yolu, No: 219, 01210 Seyhan, Adana, Turkiye.
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Abstract

The antibacterial properties of boron-containing compounds are well known although there are limited studies available on the pure boron nanoparticles. In this study boron nano-particles were characterized in terms of their particle size, shape, stability and surface charge before and after they are applied to textile surfaces to study their impact on antibacterial activity in addition to cytotoxicity. It was observed that the boron nano-particles are affective in limiting bacteria growth on both gram-negative and gram-positive species without requiring any stimulation to initiate the antibacterial action. It was also found that the application of boron nano-particles on the textile surfaces through mixing them in hydrophobic finishing solutions helped improve the wettability performance of the textiles while showing no change in the physical and colour fastness properties at an optimal concentration of 0.02 % w/v of finishing solution.

Type
Articles
Copyright
Copyright © Materials Research Society 2015 

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References

REFERENCES

Gao, Yuan, Robin Cranston, “Recent Advances in Antimicrobial Treatments of Textiles”, Textile research journal, 78:60 (2008)Google Scholar
Purwar, R., and Joshi, M., Recent Developments in Antimicrobial Finishing of Textiles, A Review, AATCC Review, 4,2226 (2004)Google Scholar
Russell, A. D., Biocide Usage and Antibiotic Resistance: The Relevance of Laboratory Findings to Clinical and Environmental Situations, Lancet Infect. Dis., 3, 794803 (2003).CrossRefGoogle Scholar
Kim, TN, Feng, QL, Kim, JO, WU, j, Wang, H, Chen, GC, et al. Antimicrobial effects of metal ions (Ag+, Cu2 +, Zn2 +) in hydroxyapatite, J Mater Sci Mater Med 9; 129–34(1998)CrossRefGoogle Scholar
Cho, KH, Park, JE, Osaka, T, Park, SG. “The study of antimicrobial activity and preservative effects of nanosilver ingredient”. Electrochemica Acta, 52; 956–60, (2005)CrossRefGoogle Scholar
Kowshik, M, Ashtaputre, S, Karrazi, S, “Extracellular synthesis of silver nanoparticles by a silver-tolerant yeast strain MKY3. Nanotechnology, 14; 95100, (2003)CrossRefGoogle Scholar
Souza, GIH, Marcato, PD, Duran, N, Esposito, E. “Utilization of Fusarium oxysporum in the biosynthesis of silver nanoparticles and its antibacterial activities”. Presented at Xth National Meeting of Environmental Microbiology, Curtiba, PR (Brazil), [Abstract p 25], (2004)Google Scholar
Qin, G.; Zong, Y.; Chen, Q.; Hua, D.; Tian, S. “Inhibitory effect of boron against Botrytis cineria on table grapes and its possible mechanisms of action”. International Journal of Food Microbiology, 138, 145150 (2010).CrossRefGoogle Scholar
Kowal, K., Eysocka-Krol, K., Kopaczynska, M., Dworniczek, E., Franiczek, R., Wawrzynska, M., Vargova, M., Zahoran, M., Rakovsky, E., Kus, O., Plesh, G., Plecenik, A., Laffir, F., Tofail, S.A.M., Podbielska, H. “In situ photoexcitation of silver-doped titania nanopowders for activity against bacteria and yeast”. J Colloid Interface Sci, 362, 5057 (2011).CrossRefGoogle Scholar