Biosynthesised silver nanoparticles using aqueous leaf extract of Tagetes patula L. and evaluation of their antifungal activity against phytopathogenic fungi. Issue 5 (24th May 2017)

Record Type:: Journal Article
Title:: Biosynthesised silver nanoparticles using aqueous leaf extract of Tagetes patula L. and evaluation of their antifungal activity against phytopathogenic fungi. Issue 5 (24th May 2017)
Main Title:: Biosynthesised silver nanoparticles using aqueous leaf extract of Tagetes patula L. and evaluation of their antifungal activity against phytopathogenic fungi
Authors:: Sukhwal, Aradhana
Jain, Devendra
Joshi, Arunabh
Rawal, Pokhar
Kushwaha, Himmat S.
Abstract:: Abstract : In the recent decades, nanotechnology is gaining tremendous impetus due to its capability of modulating metals into their nanosize, which drastically changes the chemical, physical, biological and optical properties of metals. In this study, silver nanoparticles (AgNPs) synthesis using aqueous leaf extracts of Tagetes patula L. which act as reducing agent as well as capping agent is reported. Synthesis of AgNPs was observed at different parameters like temperature, concentration of silver nitrate, leaf extract concentration and time of reduction. The AgNPs were characterized using UV‐vis spectroscopy, scanning electron microscope with energy dispersive spectroscopy, transmission electron microscopy with selected area electron diffraction, X‐ray diffraction, Fourier transform infrared and dynamic light scattering analysis. These analyses revealed the size of nanoparticles ranging from 15 to 30 nm as well revealed their spherical shape and cubic and hexagonal lattice structure. The lower zeta potential (−14.2mV) and the FTIR spectra indicate that the synthesized AgNPs are remarkably stable for a long period due to the capped biomolecules on the surface of nanoparticles. Furthermore, these AgNPs were found to be highly toxic against phytopathogenic fungi Colletotrichum chlorophyti by both in vitro and in vivo and might be a safer alternative to chemical fungicides.
Is Part Of:: IET nanobiotechnology. Volume 11:Issue 5(2017)
Journal:: IET nanobiotechnology
Issue:: Volume 11:Issue 5(2017)
Issue Display:: Volume 11, Issue 5 (2017)
Year:: 2017
Volume:: 11
Issue:: 5
Issue Sort Value:: 2017-0011-0005-0000
Page Start:: 531
Page End:: 537
Publication Date:: 2017-05-24
Subjects:: silver -- nanoparticles -- nanofabrication -- nanobiotechnology -- ultraviolet spectra -- visible spectra -- scanning electron microscopy -- X‐ray chemical analysis -- electron diffraction -- X‐ray diffraction -- Fourier transform infrared spectra -- crystal structure -- electrokinetic effects -- antibacterial activity
biosynthesised silver nanoparticles -- aqueous leaf extract -- Tagetes patula L -- antifungal activity -- phytopathogenic fungi -- nanotechnology -- UV–vis spectroscopy -- scanning electron microscope -- energy dispersive spectroscopy -- transmission electron microscopy -- selected area electron diffraction -- X‐ray diffraction -- Fourier transform infrared spectra -- dynamic light scattering analysis -- hexagonal lattice structure -- zeta potential -- phytopathogenic fungi Colletotrichum chlorophyti -- cubic lattice structure -- size 15 nm to 30 nm -- Ag
Biotechnology -- Periodicals
Nanotechnology -- Periodicals
660.6
Journal URLs:: http://digital-library.theiet.org/content/journals/iet-nbt ↗
http://ieeexplore.ieee.org/servlet/opac?punumber=4123961 ↗
http://www.ietdl.org/IP-NBT ↗
https://ietresearch.onlinelibrary.wiley.com/journal/1751875x ↗
http://www.theiet.org/ ↗
DOI:: 10.1049/iet-nbt.2016.0175 ↗
Languages:: English
ISSNs:: 1751-8741
Deposit Type:: Legaldeposit
View Content:: Available online (eLD content is only available in our Reading Rooms) ↗
Physical Locations:: British Library DSC - 4363.252850
British Library DSC - BLDSS-3PM
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Ingest File:: 17374.xml