Improvement of Silver Nanoparticles Synthesis by Monascus purpureus using Gamma Irradiation

El-Batal, Ahmed I.; El-Baz, Ashraf F.; Abomosalam, Farag M.; Tayel, Ahmed A.

doi:10.21608/rjab.2015.53534

	Improvement of Silver Nanoparticles Synthesis by Monascus purpureus using Gamma Irradiation
Research Journal of Applied Biotechnology
Article 7, Volume 1, Issue 1, June 2015, Page 80-100 PDF (1.33 MB)
Document Type: Original Article
DOI: 10.21608/rjab.2015.53534
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Authors
Ahmed I. El-Batal^* ¹; Ashraf F. El-Baz^* ²; Farag M. Abomosalam^* ³; Ahmed A. Tayel^* ²
¹Drug Radiation Research Dep., Biotechnology Division, National Center for Radiation Research and Technology (NCRRT), Atomic Energy Authority, Egypt.
²Genetic Engineering and Biotechnology Research Institute - University of Sadat City, Egypt
³Drug Radiation Research Dep., Biotechnology Division, National Center for Radiation Research and Technology (NCRRT), Atomic Energy Authority, Egypt
Abstract
Aqueous dispersion of highly stable silver nanoparticles were synthesized using gamma irradiation with Monascus purpureus supernatant molecules as reducing and stabilizing agent. The formation of Nano sized silver was confirmed by its characteristic surface Plasmon absorption peak around 420nm in UV-VIS spectra. The size of the silver nanoparticles can be turned by controlling the radiation dose and mixing method of AgNO solution with Monascus purpureus supernatant (irradiation process). Dynamic light scattering (DLS) measurement and Transmission electron microscope (TEM)of the synthesized nanoparticles indicated that the size depend on dose and irradiation process . The irradiation was carried out at doses from 1 to 25kGy . XRD analysis of the silver confirmed the formation of metallic silver. Fourier transform infra-red (FTIR) spectroscopic data indicate abounding of Ag nanoparticles with Monascus purpureus supernatant molecules. The obtained Ag nanoparticle dispersion was stable for over 3 months at room temperature.
Keywords
Biosynthesis; Ag nanoparticle; DLS; TEM; FTIR


References
Ahmad, M. B.; Shameli, K. and Yunus,WM.ZW.(2010) "Synthesis and characterization of silver/clay/starch bionanocomposites by green method." Basic Appl Sci. 4(7), 2158– Biswal, J.; Ramnani, S. P.; Shirolikar, S. and Sabharwal, S. (2011) "Synthesis of rectangular plate like gold nanoparticles by in situ generation of seeds by combining both radiation and chemical methods." Rad.Phys.Chem.80, 44– Carels, M. and Shepherd, D. (1977)" The effect of different nitrogen sources on pigment production and sporulation of Monascus sp. in submerged shaken culture." Can J Microbiol. 23,1360- Carvalho, J. C.; Pandey. A.; Babitha, S.and Soccol, C.R. (2003)" Production of Monascus biopigments an over view." Agro Food Ind HiTec. 14,37– Chen, Peng.; Song, Linyong .; Liu,Yankuan. and Fang,Yue. (2007)" Synthesis of silver nanoparticles by g-ray irradiation in acetic water solution containing chitosan. " Radiation Physics and Chemistry .76 ,1165– Davies,M.( 1963)" Infra-red Spectroscopy and Molecular Structure." An Outline of the Principles, Elsevier, Amsterdam.17. Eisa,Wael. H.; Abdel-Moneam,YasserK.; Shaaban,Yasser.; Abdel-Fattah, Atef . And AbouZeid AmiraM. (2011)" Gamma-irradiation assisted seeded growth of Ag nanoparticles within PVA matrix Materials." Chemistry and Physics xxx xxx–xxx. Eksik, M.; Tasdelen, A.; Erciyes, Y. and Yagci, Compos. (2010)" In situ Synthesis of Oil Based Polymer/Silver Nanocomposites by Photoinduced Electron Transfer and Free Radical Polymerization Processes." Interfaces.17 , 357– Endo, A. (1980)" Monacolin K, a new hypocholesterolemic agent that specifically inhibits 3-hydroxy-3-methylglutaryl coenzyme A reductase." Journal of Antibiotics. 33, 334– Fabre, C. E.; Santerre, AL.; Loret, M. D.; Baberian,R.; Parailleux, A. and Goma. G. (1993)"Production and food application of their pigments of Monascus rubber." J .Food. Sci.58,1099– Henglein, A. (1998) "Colloidal silver nanoparticles: photochemical preparation and interaction with O2, CCl4, and some metalions."Chem.Mater.10,444– Janata, E. (2003) "Structure of the trimer silver cluster Ag3." Phys. Chem .107, 7334– Kalimuthu, K.; Babu,R. S.;Venkataraman, D.; Bilal, M. and Gurunathan, S. Biosynthesis of silver nanocrystals by Bacillus licheniformis."Colloids Surf. B: Bio interfaces.65, 150– Katrin, Loeschner.; Niels, Hadrup,;Klaus,Qvortrup.; Agnete, Larsen.; Xueyun, Gao.; Ulla, Vogel.; Alicja, Mortensen.; Henrik, Rye. Lam. and Erik, H. Larsen Distribution of silver in rats following 28 days of repeated oral exposure to silver nanoparticles or silver acetate." Published online June 1. doi: / - - - 88 Research Journal of Applied Biotechnology (RJAB) Kelly,K.L.; Coronado,E.; Zhao, L.L. and Schatz, G.C. (2003) " The optical properties of metal nanoparticles: the influence of size, shape and dielectric environment, J. Phys. Chem. B 107 668– Khanna, P.K.; Singh,N.; Charan, S.; Subbarao,VVS.; Gokhale,R. and Mulik,U.P.(2005)"Synthesis and characterization of Ag/PVA nanocomposite by chemical reduction method." Mater. Chem. Phys. 93, 117– Kim, S.S.; Rhee, S. H. and Kim. I. (1977)"Studies on production and characteristics of edible red color pigment produced by mold." Appl Microbial Bioeng. 11,277- Lee, H.H.; Chou, K.S. and Huang, K.C.(2005)"Inkjet printing of nanosized silver colloids." Nanotechnology. 16,2436– Lei , Zhongli. and Fan ,Youhua. (2006) "Preparation of silver nanocomposites stabilized by an amphiphilic block copolymer under ultrasonic irradiation."Materials Letters. 60, 2256– Li, Jun.; Kang, Bin.; Chang, Shuquan.and Dai, Yaodong.(2012) "Gamma radiation synthesis of plasmatic nanoparticles for dark field cell imaging." Radiation Physics and Chemistry 76 ,290– Li, W.; Seal, S. and Megan, E. (2003)"Physical and optical properties of sol gel nano-silver doped silica film on glass substrate as a function of heattreatment temperature. J Appl Phys. 93,9553– Liu,Yushenga.; Chen,Shimoua.; Lei ,Zhong. and Wu, Guozhong. (2009)" Preparation of high stable silver nanoparticle dispersion by using sodium alginate as a stabilizer under gamma radiation." Radiation Physics and Chemistry. 78, 251– Marignier, J.L.; Belloni, J.; Delcourt, M. and Chevalier, J.P. (1985) "New microaggregates of non-noble metals and alloys prepared by radiation induced reduction." Nature .317,344– Mukherjee, Gunjan. and Kumar,Singh. Sanjay. (2010)" Purification and characterization of anew red pigment from Monascus purpureus in submerged fermentation .Process Biochemistry xxx-xxx Murphy, C.J. (2002)"Nanocubes and nanoboxes." Materials science 601):2139– Naghavi, Kazem.; Saion,Elias.; Rezaee, Khadijeh. and Yunus, Wan. Mahmood. (2010) "Influence of dose on particle size of colloidal silver nanoparticles synthesized by gamma radiation." Radiation Physics and Chemistry .79 , 1203– Panacek, A.; Kvitek, L. and Prucek, R.(2006) "Silver colloid nanoparticles: synthesis, characterization, and their antibacterial activity. Phys Chem. 110,16248– Porel, S.; Singh, S.; S. Harsha, S.; Rao, D.N. and Radhakrishnan,T.P. " Nanoparticle-embedded polymer: in-situ synthesis, free-standing films with highly monodisperse silver nanoparticles and optical limiting." Chem. Mater. 17 9– Puis, J.; Adliene,D.; Guobiene, A.; Prosycevas, I. and Nalivaikoa, R. Plaipaite.(2011) " Modification of Ag–PVP nanocomposites by gamma irradiation ."Materials Science and Engineering .176, 1562– 888 Research Journal of Applied Biotechnology (RJAB) Ramnani , S.P.; Biswal, Jayashri. and Sabharwal,S. (2007) " Synthesis of silver nanoparticles supported on silica aerogel using gamma radiolysis. "Radiation Physics and Chemistry. 76, 1290– Rao ,Y.N. ; Banerjee ,D. ; Datta, A. ; Das ,S.K. ; Guin ,R. and Saha ,A. "Gamma irradiation route to synthesis of highly redispersible natural polymer capped silver nanoparticles." Radiation Physics and Chemistry. 79, 1240– Remita, H.; Lampre, I.; Mostafavi, M.; Balanzat, E. and Bouffard, S. Comparative study of metal clusters induced in aqueous solutions by c-rays, electron or C6+ ion beam irradiation. Rad Phys Chem.72,575– Shameli, K amyar.; Ahmad, Mansor. Bin.; Yunus,Wan. Md.; Zin, Wan.; Ibrahim, Nor. Azowa .; Gharayebi, Yadollah. and Sedaghat, Sajjad.(2010)" Synthesis of silver/montmorillonite nanocomposites using γ-irradiation." International Journal of Nanomedicine.5 ,1067– Shameli, K.;Ahmad, M.B. and Yunus, WM .ZW. (2010) "Silver/poly (lactic acid) nanocomposites: preparation, characterization, and antibacterial activity. Int J Nanomedicine. 5,573– Sheikh, N.; Akhavan, A. and Kassaee, M. Z. (2009)" Synthesis of antibacterial silver nanoparticles by γ -irradiation. Physica E. 42,132– Shimada. K.; Fujikawa, K.; Yahara, K. and Nakamura, T. (1992)" Ant oxidative properties of xanthan on the antioxidation of soybean oil in cyclodextrin emulsion." Agric. Food Chem. 40, 945– Sun,Y. and Xia, Y. (2003) " Gold and silver nanoparticles: a class of chromophores with colors tunable in the range from 400 to 700 nm." Analyst .128, 686– Temgire, M. K. and Joshi, S. S. (2004) " Optical and structural studies of silver nanoparticles." Radiation Physics and Chemistry. 71, 1039– Tripathy, M.; Ashok, Chrse.; karam, N. C.Prathna. and Mkherjiee. Amitaya. " Process variables in biomimetic synthesis of silver nanoparticles by aqueous extract of Azadirachta indica (Neem) leaves. " Nanopart Res. 12,237– Yang ,Qing .; Wang, Feng .; Tang ,Kaibin .; Wang ,Chunrui .; Chen, Zhiwen . and Qian , yitai.(2002) " The formation of fractal Ag nanocrystallites via g-irradiation route in isopropyl alcohol Materials." Chemistry and Physics. 78 ,495– . Zagoldie, Pandey. Sonil.; Shah, Ritu. and Sharon, Madhuri. (2012) " Extracellular Fabrication of Silver Nanoparticles using Pseudomonas aeruginosa and its Antimicrobial Assay." Advances in Applied Science Research. 3 (3),1776- Zhao, G. R.; Xiang, ZJ. ; Ye, T.X. and Guo. Z.X.(2006) "antioxidant activities of salvia miltiorrzhiza and panax notoginseng." food chemistry.99 ,(4).767
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