R
Rajeshwari Sivaraj
Researcher at Karpagam University
Publications - 28
Citations - 2589
Rajeshwari Sivaraj is an academic researcher from Karpagam University. The author has contributed to research in topics: Nanoparticle & Aqueous solution. The author has an hindex of 17, co-authored 25 publications receiving 1964 citations. Previous affiliations of Rajeshwari Sivaraj include Teesside University & Bharathiar University.
Papers
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Orange peel as an adsorbent in the removal of acid violet 17 (acid dye) from aqueous solutions
TL;DR: The effectiveness of orange peel in adsorbing Acid violet 17 from aqueous solutions has been studied as a function of agitation time, adsorbent dosage, initial dye concentration and pH.
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Green synthesized ZnO nanoparticles against bacterial and fungal pathogens
TL;DR: In this article, the antimicrobial efficacy of green and chemical synthesized ZnO nanoparticles against various bacterial and fungal pathogens was evaluated using varying concentrations of green nanoparticles with sizes 40 and 25 nm respectively.
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Green synthesis and characterization of zinc oxide nanoparticles from Ocimum basilicum L. var. purpurascens Benth.-Lamiaceae leaf extract
TL;DR: In this paper, the synthesis of zinc oxide nanoparticles (ZnO-NPs) using Ocimum basilicum L. var. purpurascens Benth.-Lamiaceae leaf extract and zinc nitrate was reported.
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Biosynthesis and characterization of Acalypha indica mediated copper oxide nanoparticles and evaluation of its antimicrobial and anticancer activity.
Rajeshwari Sivaraj,Rajeshwari Sivaraj,Pattanathu K. S. M. Rahman,P. Rajiv,S. Narendhran,Rajendran Venckatesh +5 more
TL;DR: Copper oxide nanoparticles showed efficient antibacterial and antifungal effect against Escherichia coli, Pseudomonas fluorescens and Candida albicans and confirmed that copper oxide nanoparticle have cytotoxicity activity.
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Aloe barbadensis Miller mediated green synthesis of mono-disperse copper oxide nanoparticles: Optical properties
TL;DR: A facile and efficient synthesis of copper oxide nanoparticles was carried out with controlled surface properties via green chemistry approach and is a novel, cheap, and convenient technique suitable for large scale commercial production and health related applications of CuO nanoparticles.