R
Rasesh Y. Parikh
Researcher at Georgia Institute of Technology
Publications - 27
Citations - 3408
Rasesh Y. Parikh is an academic researcher from Georgia Institute of Technology. The author has contributed to research in topics: Silver nanoparticle & RNA. The author has an hindex of 13, co-authored 22 publications receiving 2857 citations. Previous affiliations of Rasesh Y. Parikh include Savitribai Phule Pune University & RMIT University.
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Journal ArticleDOI
Biological synthesis of metallic nanoparticles.
TL;DR: This review provides an overview of various methods of synthesis of metallic nanoparticles by biological means and indicates that a promising approach to achieve this objective is to exploit the array of biological resources in nature.
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Extracellular Synthesis of Crystalline Silver Nanoparticles and Molecular Evidence of Silver Resistance from Morganella sp.: Towards Understanding Biochemical Synthesis Mechanism
Rasesh Y. Parikh,Sanjay Singh,Bhagavatula L. V. Prasad,Milind S. Patole,Murali Sastry,Yogesh S. Shouche +5 more
TL;DR: The extracellular synthesis of crystalline silver nanoparticles (AgNPs) by using Morganella sp is reported, and molecular evidence of silver resistance is shown by elucidating the synthesis mechanism.
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Hexavalent chromium reduction by Providencia sp
TL;DR: A gram-negative chromate reducing bacteria was isolated from the contaminated sites of chemical industries, which is identified as Providencia sp.
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Bacteria-mediated precursor-dependent biosynthesis of superparamagnetic iron oxide and iron sulfide nanoparticles.
Atul Bharde,Rasesh Y. Parikh,Maria Baidakova,Samuel Jouen,Baetrice Hannoyer,Toshiaki Enoki,B. L. V. Prasad,Yogesh S. Shouche,Satish Ogale,Murali Sastry +9 more
TL;DR: The bacterium Actinobacter sp.
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Bacterial kinetics-controlled shape-directed biosynthesis of silver nanoplates using Morganella psychrotolerans.
Rajesh Ramanathan,Anthony P. O'Mullane,Rasesh Y. Parikh,Peter M. Smooker,Suresh K. Bhargava,Vipul Bansal +5 more
TL;DR: By controlling the growth kinetics of Morganella psychrotolerans, a silver-resistant psychrophilic bacterium, the shape anisotropy of silver nanoparticles can be achieved, which shows the possibility to achieve nanoparticle shape control by using a "green" biosynthesis approach.