##plugins.themes.academic_pro.article.main##
Abstract
The atmospheric air cold plasma has been used in the manufacture of gold nanomaterials. Where plasma was generated non-thermal atmospheric pressure using diameter of 1 mm. Aqueous gold tetrachloride salts HAuCl4.4H2O is used for production of gold nanoparticles with Hyaluronic Acid (HA). The experiment was conducted in parameter of time, where the use aqueous gold tetrachloride salts HAuCl4.4H2O in concentration of 1 mM with Hyaluronic Acid (HA) in concentration of 1mM in a different exposure time ( 3, 4, 5, 6 ) min. To insure the typical preparing of the nanoparticles, UV-visible and X-ray have been conducted for that purpose. Morphology of the AuNPs were carried out by FESEM. The outcome of the study revealed that the atmospheric air cold plasma is a promising technique to be used in production of the nanoparticle’s materials for the medical application
Keywords
##plugins.themes.academic_pro.article.details##
This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.
References
- Nehra, V., Kumar, A., & Dwivedi, H. K. (2008). Atmospheric non-thermal plasma sources. International Journal of Engineering, 2(1), 53-68.
- Keidar, M., Walk, R., Shashurin, A., Srinivasan, P., Sandler, A., Dasgupta, S., ... & Trink, B. (2011). Cold plasma selectivity and the possibility of a paradigm shift in cancer therapy. British journal of cancer, 105(9), 1295
- Kaushik, N. K., Kaushik, N., Linh, N. N., Ghimire, B., Pengkit, A., Sornsakdanuphap, J., ... & Choi, E. H. (2019). Plasma and nanomaterials: fabrication and biomedical applications. Nanomaterials, 9(1), 98.
- Ban, A., Al-Shammri Ahmed, M., & Murbat Hamid, H. (2019). Cold Atmospheric Plasma generated by FE-DBD Scheme cytotoxicity against Breast Cancer cells.
- Fridman, G., Shereshevsky, A., Jost, M. M., Brooks, A. D., Fridman, A., Gutsol, A., ... & Friedman, G. (2007). Floating electrode dielectric barrier discharge plasma in air promoting apoptotic behavior in melanoma skin cancer cell lines. Plasma Chemistry and Plasma Processing, 27(2), 163-176.
- Fernández, A., & Thompson, A. (2012). The inactivation of Salmonella by cold atmospheric plasma treatment. Food Research International, 45(2), 678-684.
- Hoffmann, C., Berganza, C., & Zhang, J. (2013). Cold Atmospheric Plasma: methods of production and application in dentistry and oncology. Medical gas research, 3(1), 21.
- Heslin, C., Boehm, D., Milosavljevic, V., Laycock, M., Cullen, P. J., & Bourke, P. (2014). Quantitative assessment of blood coagulation by cold atmospheric plasma. Plasma Medicine, 4(1-4).
- Dobrynin, D., Wu, A., Kalghatgi, S., Park, S., Chernets, N., Wasko, K., ... & Brooks, A. D. (2011). Live pig skin tissue and wound toxicity of cold plasma treatment. Plasma Medicine, 1(1).
- Tipa, R. S., Boekema, B., Middelkoop, E., & Kroesen, G. M. W. (2012). Cold plasma for bacterial inactivation. In Proc. 20th Int. Symp. Plasma Chemistry.
- Fridman, G., Shereshevsky, A., Jost, M. M., Brooks, A. D., Fridman, A., Gutsol, A., ... & Friedman, G. (2007). Floating electrode dielectric barrier discharge plasma in air promoting apoptotic behavior in melanoma skin cancer cell lines. Plasma Chemistry and Plasma Processing, 27(2), 163-176.
- Meena, A. K. (2010). International Journal o Contemporary Research and Review.
- Abdulhaleem, N., Mahmuda, A., Khadim, A. Z. K. J., Majid, R. A., Lung, L. T. T., Abdullah, W. O., & Unyah, Z. (2017). An overview of the prevalence and distribution of gastrointestinal parasitic infections in post-war Iraq. Tropical Journal of Pharmaceutical Research, 16(6), 1443-1451.
- Zhou, M., Chen, S., Ren, H., Wu, L., & Zhao, S. (2005). RETRACTED: Electrochemical formation of platinum nanoparticles by a novel rotating cathode method. Physica E: Low-dimensional Systems and Nanostructures, 3(27), 341-350.
- Bisht, A., & Talebitaher, A. (2011). Synthesis of Nanoparticles using Atmospheric Microplasma Discharge. In FPPT5 Conf.
- Ismail, E., Saqer, A., Assirey, E., Naqvi, A., & Okasha, R. (2018). Successful green synthesis of gold nanoparticles using a corchorus olitorius extract and their antiproliferative effect in cancer cells. International journal of molecular sciences, 19(9), 2612.