Nanorods of Cobalt Oxide: Study on its Morphology with Varied Sonication Time

A. Alex John Thangapaul; V. Sherly Arpuda Kiruba; R. Nivea; T. Viji; K. Thiyagarajan; Alphonse Dhayal Raj; S. Vasanth Kumar

doi:10.4028/www.scientific.net/AMR.678.203

Paper Titles

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Enhanced Photocatalytic Activity of Coinage Metal-Cadmium Sulfide Nanorod Composites under Sun Light Irradiation
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Influence of Growth and Annealing Temperatures on the Properties of ZnO Nanorods Synthesized by Dip Coating Method
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Mass Production of Carbon Nanofibers on Water Soluble Support
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Nanorods of Cobalt Oxide: Study on its Morphology with Varied Sonication Time
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Optical and Structural Properties of ZnO Nanorods Prepared by Chemical Bath Deposition Method
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Synthesis and Characterization of Silver Nanowires
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Synthesis and Characterization of ZnO Micro-Tubes
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ZnO Nanorods by a Simple Two Step Process
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HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 678Nanorods of Cobalt Oxide: Study on its Morphology...

Nanorods of Cobalt Oxide: Study on its Morphology with Varied Sonication Time

Abstract:

Nanomaterials research has become a major attraction in the field of advanced materials research in the area of Physics, Chemistry, and Materials Science. Biocompatible and chemically stable magnetic metal oxide nanoparticles have biomedical applications that includes drug delivery, cell and DNA separation, gene cloning, magnetic resonance imaging (MRI). This research is aimed at the fabrication of magnetic cobalt oxide nanoparticles using a safe, cost effective, and easy to handle technique that is capable of producing nanoparticles free of any contamination. Nanostructured Cobalt oxide powder was prepared by sonication method using ultrasonicator. Effect of sonication for different time intervals, on the morphology of cobalt oxide nanostructures was extensively studied. The morphology of the nanorods were very much affected by the sonication time, it was found that with an increase in sonication time, the length of the nanorods seem to considerably increase at the same time an agglomeration effect comes in to action and the rods form bundle like structures. These cobalt oxide nanorods were characterized using X-ray Diffraction characterization (XRD) and it revealed a cubic structure. Weight percentage of cobalt oxide was confirmed by thermo gravimetric analysis (TGA).