Abstract
In the current research, a new strategy to destroy cancer cells using Osmium Dioxide (OsO2) and Osmium Tetroxide (OsO4) nanoparticles and magnetic fields under synchrotron and synchrocyclotron radiations is investigated. The calculation of thickness and optical constants of Osmium Dioxide (OsO2) and Osmium Tetroxide (OsO4) a new strategy to destroy cancer cells using Osmium Dioxide (OsO2) and Osmium Tetroxide (OsO4) nanoparticles and magnetic fields under synchrotron and synchrocyclotron radiations produced using sol–gel method over glassy medium through a single reflection spectrum is presented. To obtain an appropriate fit for reflection spectrum, the classic Drude–Lorentz model for parametric di–electric function is used. The best fitting parameters are determined to simulate the reflection spectrum using Lovenberg–Marquardt optimization method. The simulated reflectivity from the derived optical constants and thickness are in good agreement with experimental results.   A new strategy to destroy cancer cells using Osmium Dioxide (OsO2) and Osmium Tetroxide (OsO4) nanoparticles and magnetic fields under synchrotron and synchrocyclotron radiations Â
Highlights
A new strategy to destroy cancer cells using Osmium Dioxide (OsO2) and Osmium Tetroxide (OsO4) nanoparticles and magnetic fields under synchrotron and synchrocyclotron radiations is investigated
Osmium Dioxide (OsO2) and Osmium Tetroxide (OsO4)–a new strategy to destroy cancer cells using Osmium Dioxide (OsO2) and Osmium Tetroxide (OsO4) nanoparticles and magnetic fields under synchrotron and synchrocyclotron radiations are produced over glassy medium in sol–gel laboratory, Faculty of Chemistry, BioSpectroscopy Core Research Laboratory and Cancer Research Institute (CRI) at California South University, Irvine, California, USA, under similar conditions
Comparison of the results were shown that the sample containing 0.5% of Os has shown more reflectivity than samples containing 1% and 1.5% of Osmium Dioxide (OsO2) and Osmium Tetroxide (OsO4)
Summary
A new strategy to destroy cancer cells using Osmium Dioxide (OsO2) and Osmium Tetroxide (OsO4) nanoparticles and magnetic fields under synchrotron and synchrocyclotron radiations is investigated.
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