Material And Magneto Electrical Characteristics Of Iron Embraced Lanthanoids Nano Oxide Used As Fluoride Adsorbent And Fabrication Of Oxygen Sensor Devices

Abstract

Nanoparticles are chemical compounds which are synthesized to provide enhanced property for instance greater strength reactivity stability quantum efficiency or conductivity in contrast to the similar particles of macro size Specifically the metal oxide nanoparticles possess exceptionally high gaseous barrier property conductivity optical magnetic luminescent and mechanical properties In such a manner the metal oxide nanoparticles have been applied in the latest important field such as military aircraft biological applications for drug delivery carriers chemosensor labeling fluoroimmunoassay magnetic resonance imaging contrast agents antitumor therapy and cell sorting environmental remediation and biotechnology for separation laser systems imaging and sensing The present research aims to synthesize an iron embraced lanthanoids nano oxides in an easy cost-effective and an effective technique by wet chemical precipitation method The lanthanoids used in present research are lanthanum and cerium since the metals are most abundantly available among the rare earth metals The quantity of the lanthanoids used in the synthesis is reduced by embracing with iron oxide The embracement of iron oxide with lanthanoids enhances the surface area pore volume pore diameter magnetic and electrical conductance property and develops the particles to apply as an efficient adsorbent and gas sensor The iron embraced lanthanoids nano oxide to be synthesized in the research are iron embraced lanthanum nano oxide ILNO iron embraced cerium nano oxide ICNO and iron embraced lanthanum cerium nano oxide ILCNO. newline