Author:
Sherpa Laden,Nimmala Arun,Rao S. V. S. Nageswara,Khan S. A.,Pathak Anand P.,Tripathi Ajay,Tiwari Archana
Abstract
AbstractWe present green synthesis of silver nanoparticles in water using unirradiated and Ag$$^{15+}$$
15
+
ion irradiated phytoextracts of Bergenia Ciliata leaf, Eupatorium adenophorum leaf, Rhododendron arboreum leaf and flower. The use of different plant extracts and their subsequent ion irradiation allow for successful refinement of nanoparticle size and morphology. Due to changes in reducing and capping agents the nanoparticle surface functionalization also varies which not only controls the morphology but also allows for surface oxidation and aggregation processes. In this work, we have synthesized silver nanoparticles which exhibit sizes in the range from 13 to 24 nm and having shapes like spherical, quasispherical, trigonal, hexagonal, cylindrical, dendritic assemblies, and porous nanoparticles. Owing to changes in the size and shape of the nanoparticles, their direct bandgap (2.05 eV - 2.48 eV) and local surface plasmon resonance (420 nm - 490 nm) could also be tuned. These nanoparticles are examined as SERS substrates, where their enhancement factors, limit of detection for methylene blue, and SERS substrate homogeneity have been tested. It has been observed the nanoparticles synthesized using unirradiated plant extracts present an enhancement factor of 10$$^6$$
6
with a limit of detection 10$$^{-8}$$
-
8
M. Whereas nanoparticles with refined morphology and shapes upon irradiation present high enhancement factors of >10$$^7$$
7
and detection limit down to 10$$^{-9}$$
-
9
M. In addition, uniformity in Raman spectra over the SERS substrates has been obtained for selected Ag NPs substrates synthesized using irradiated extracts with minimum relative standard deviation in enhancement factor < 12%.
Funder
Inter-University Accelerator Centre
DST-FIST
Publisher
Springer Science and Business Media LLC
Cited by
1 articles.
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