Nanophytosynthesis and Characterization of Silver Nano Particles Using Chrysanthemum parthenium Extract as an Eco-Friendly Method

Ali shafaghat, Mohammad Shafaghatlonbar

Abstract


The current study (in Khalkhal, 2014) deals with a simple nano phytosynthesis approach to produce silver nanoparticles (AgNPs) using a methanolic extract of the leaves of Chrysanthemum parthenium along with evaluation of the corresponding physicochemical properties. Accordingly, AgNPs were analyzed and characterized by UV/Vis spectrophotometry and FT-IR spectroscopy. In addition, the morphology and size of the reduced silver nanoparticles were determined by the transmission electron microscope (TEM), scanning electron microscope (SEM) and X-ray diffractometer (XRD) instrumentations. The FT-IR spectra of plant methanolic extract taken before and after synthesis of nanoparticles, showed the possible functional groups for the formation of AgNPs. Moreover, the SEM accounted for the formation of AgNPs with a mean size of 43.1 nm. The TEM study also confirmed the formation of AgNPs over the average size of 30-50 nm. Finally, the XRD pattern showed that the silver nanoparticles are crystalline in nature with a face-centered cubic (FCC) structure and a mean size of 46.7 nm. The suggested approach involving nanophytosynthesis of AgNPs using the leaves of C. parthenium serves as a beneficial, effective, rapid, eco-friendly and easy alternative to conventional synthetic methods. 


Keywords


Nanophytosynthesis; Chrysanthemum parthenium; Spectrophotometry; Nano Silver; XRD; TEM; SEM

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References


Albrecht M.A., Evans C.W., Raston CL., 2006. Green chemistry and the health implications of nanoparticles. Green Chem. 8, 417– 432.

Emory S.R., Haskins W.E., Nie S., 1998. Direct observation of size-dependent optical enhancement in single metal nanoparticles. J Am Chem. 120, 8009-8010.

Ghosh P.K., Saxena T.K., Gupta R., Yadav R.P., Davidson S., 1996. Microbial lipases: production and applications. Sci Prog. 79, 119-157.

Geddes J.R., Carney S.M., Davies C., Furukawa T.A., Kupfer D.J., Frank E., Goodwin G.M., 2003. Relapse prevention with antidepressant drug treatment in depressive disorders: A systematic review. The Lancet. 361, 653-661.

Arulkumar S., Sabesan M., 2010. Biosynthesis and characterization of gold nanoparticle using antiparkinsonian drug Mucuna pruriens plant extract. Int Res Pharm Sci. 4, 417- 420.

Lin L., Wang W., Huang J., Li Q., Sun D., Yang X., 2010. Nature factory of silver nanowires: Plant mediated synthesis using broth of Cassia fistula leaf. Chem Eng J. 162, 852-858.

Arya V., Yadav S., Kumar S., Yadav J.P., 2010. Antimicrobial activity of Cassia occidentalis L. (Leaf) against various human pathogenic microbes. Life Sci Med Res. 9, 1-11.

Ahmad N., Sharma S., Singh V.N., Shamsi S.F., Fatma A., Mehta B.R., 2011. Biosynthesis of silver nanoparticle from Desmodium triflorum: A novel approach towards weed utilization. Biotech Res Internat. 454090, 1-8.

Smitha S.L., Philip D., Gopchandrana K.G., 2009. Green synthesis of gold nanoparticle using Cinnamomum zeylanicum leaf broth. Spectrochim Acta Part A. 74, 735-739.

Rajesh W.R., Jaya R.L., Niranjan S.K., Vijay D.M., Sahebrao B.K., 2009. Phytosynthesis of silver nanoparticle using Gliricidia sepium. Current Nanosci. 5, 117- 122.

Gade A., Gaikwad S., Tiwari V., Yadav A., Ingle A., Rai M., 2010. Biofabrication of Silver Nanoparticle by Opuntia ficusindica: In vitro antibacterial activity and study of the mechanism involved in the synthesis. Current Nanosci. 6, 370-375.

Farooqui M.D.A., Chauhan P.S., Krishnamoorthy P., Shaik J., 2010. Extraction of silver Nanoparticle from the leaf extracts of Clerodendrum inerme. Digest J Nanomater Biostruct. 5, 43-49.

Bankar A., Joshi B., Kumar A.R., Zinjarde S., 2010. Banana peel extract mediated synthesis of gold nanoparticle. Colloids and Surf B: Biointerfaces. 80, 45-50.

Song J.Y., Jang H.K., Kim B.S., 2009. Biological synthesis of gold nanoparticle using Magnolia kobus and Diopyros kaki leaf extracts. Process Biochem. 44, 1133-1138.

Shankar S.S., Rai A., Ahmad A., Sastry M., 2004. Rapid synthesis of Au, Ag, and bimetallic Au core-Ag shell nanoparticle using Neem (Aza-dirachta indica) leaf broth. J Colloid Interface Sci. 2, 275- 496.

Nestor A.R.V., Mendieta V.S., Lopez M.A.C., Espinosa R.M.G., Lopez M.A.C., Alatorre J.A.A., 2008. Solventless synthesis and optical properties of Au and Ag nanoparticles using Camiellia sinensis extract. Mater Lett. 62, 3103-3105.

Thirumurugan A., Jiflin G.J., Rajagomathi G., Tomy N.A., Ramachandran S., Jaiganesh R., 2010. Biotechnological synthesis of gold nanoparticle of Azadirachta indica leaf extract. Internat J Biol Technol. 1, 75-77.

Ankamwar B., Damle C., Ahmad A., Sastry M., 2005. Biosynthesis of gold and silver nanoparticle using Emblica officinalis fruit extract, their phase transfer and transmetallation in an organic solution. J Nanosci Nanotech. 5, 1665-1671.

Parashar V., Parashara R., Sharma B., Pandey A.C., 2009. Parthenium leaf extract mediated synthesis of silver nanoparticle: a novel approach towards weed utilization. Digest J Nanomat Biostruct. 4, 45-50.

Singh A.K., Talat M., Singh D.P., Srivastava O.N., 2010. Biosynthesis of gold and silver nanoparticle by natural precursor clove and their functionalization with amine group. J Nanopart Res. 12, 1667-1675.

Syed Ali M.Y., Anuradha V., Yogananth N., Rajathilagam R., Chanthuru A., Mohamed Marzook S., 2015. Green synthesis of silver nanoparticle by Acanthus ilicifolius mangrove plant against Armigeressubalbatus and Aedesaegypti mosquito larvae. Int J Nano Dimens. 6(2), 197-204.

Shafaghat A., 2013. Synthesis and characterization of silver nanoparticles by phytosynthesis method and their biological activity. Syn React Inorg Metal-Org Nano-Metal Chem. 43, 3152-3156.

Ponvel K.M., Narayanaraja T., Prabakaran J., 2015. Biosynthesis of silver nanoparticles using root extract of the medicinal plant Justicia adhatoda: Characterization, electrochemical behavior and applications. Int J Nano Dimens. 6(4), 339-349.

Becker R.O., 1999. Silver ions in the treatment of local infections. Met Based Drugs. 6, 297–300.

Sharma V.K., Yngard R.A., Lin Y., 2009. Silver nanoparticles: Green synthesis and antimicrobial activities. Adv Coll Int Sci. 145, 83-96.

Mozaffarian V. A Dictionary of Iranian Plants Names. Farhang Moaser, Tehran, Iran, 2007.

Jonson E.S. Feverfew: A traditional herbal remedy for migraine arthritis. Sheldon press, London, 1984.

Kupchan S.M., Fessler D.C., Kakin M.A., Giacobbe T.J., 1970. Reaction of α- methylene lactone tumor inhibitors with model biological nucleophilies. Science. 168, 3929- 3932.

Bohlmann F., Fanglanel L., Kleine K.M., Kramer H.D., Monch H., Schuber J., 1965. Uber neue polyine der Gattung chrysanthemum L. J Chem Ber. 98, 2596.

Goren N., Tahtasakal E., Kraviec M., Watson W.H., 1996. A Guaianolide from Tanacetum argenteum subsp. flabellifolium. Phytochemistry. 42, 757-760.

Bandoniene D., Pukalskas A., Venskutonis P.R., Gruzdiene D., 2000. Preliminary screening of antioxidant activity of some plant extract in rapeseed oil. Food Res Intl. 33, 785-791.

Ramalingam V., Rajaram R., Premkumar C., Santhanam C., Dhinesh P., Vinothkumar S., Kaleshkumar K., 2013. Biosynthesis of silver nanoparticles from deep sea bacterium Pseudomonas aeruginosa JQ989348 for antimicrobial, antibiofilm and cytotoxic activity. J Basic Microbiol. 53, 1-9.

Wiley B.J., Im S.H., Li Z.Y., McLellan J., Siekkinen A., Xia Y., 2006. Maneuvering the surface plasmon resonance of silver nanostructures through shape-controlled synthe-sis. J Phys Chem B. 110, 15666-15675.

Shafaghat A., Salimi F., 2008. Extraction and Determining of Chemical Structure of Flavonoids in Tanacetum parthenium (L.) Schultz. Bip. from Iran. J Sci I A U. 18(68), 39-43.

Kasthuri J., Veerapandian S., Rajendiran N., 2009. Biological synthesis of silver and gold nanoparticles using apiin as reducing agent. Colloids Surf B. 68, 55-60.

Hegnauer R. Chemotaxonomie der Pflanzen. (pp.17-79). Basel: Birkenhäuser Verlag, 1989.

Erken S., Demirci F., Demirci B., Baser K.H.C., 2001. Essential oil compositions of some Hypericum L. species growing in Turkey-I. Chem Nat Comp. 37, 434-38.

Ferraz A.B.F., Limberger R.P., Bordignon S.A.L., Von Poser G.L., Henriques A.T., 2005. Essential oil composition of six Hypericum species from southern Brazil. Flav Frag J. 20, 335-339.

Li S., Shen Y., Xie A., Yu X., Qiu L., Zhang L., Zhang Q., 2007. Green synthesis of silver nanoparticles using Capsicum annuum L. ex-tract. Green Chem. 9, 852-858.

Song J.Y., Kim B.S., 2008. Rapid biological synthesis of silver nanoparticles using plant leaf extracts. Bioprocess Biosyst Eng. 32(1), 79-84.

Magudapathy P., Gangopadhyay P., Panigrahi B.K., Nair K.G.M., Dhara S., 2001. Electrical transport studies of Ag nanoclusters embedded in glass matrix. Physica B: Condensed Matter. 299, 142-146.

Temgire M.K., Joshi S.S., 2004. Optical and structural studies of silver nanoparticles. Radiat Phys Chem. 71, 1039-1044.


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