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Pros and Cons of Livermorium Nanoparticles for Human Cancer Cells, Tissues and Tumors Treatment under Synchrotron Radiation Using Mathematica 12.0

Alireza Heidari, Katrina Schmitt, Maria Henderson, Elizabeth Besana, Ricardo Gobato

2020Zenodo (CERN European Organization for Nuclear Research)31 citationsDOIOpen Access PDF

Abstract

When Livermorium nanoparticles are subjected to descendent light, a part of light scattered (emission process)<br> and the other part absorbed (non–emission process). The amount of energy dissipation in non–emission process<br> mainly depends on material and volume of nanoparticles and it can be identified by absorption cross section. At<br> the other hand, emission process which its characteristics are depend on volume, shape and surface characteristics<br> of nanoparticles explains by scattering cross section. Sum of absorption and scattering processes which lead to<br> light dissipation is called extinction cross section. In the current study, thermoplasmonic characteristics of<br> Livermorium nanoparticles with spherical, core–shell and rod shapes are investigated. In order to investigate<br> these characteristics, interaction of synchrotron radiation emission as a function of the beam energy and<br> Livermorium nanoparticles were simulated using 3D finite element method. Firstly, absorption and extinction<br> cross sections were calculated. Then, increases in temperature due to synchrotron radiation emission as a function<br> of the beam energy absorption were calculated in Livermorium nanoparticles by solving heat equation. The<br> obtained results show that Livermorium nanorods are more appropriate option for using in optothermal human<br> cancer cells, tissues and tumors treatment method.<br>

Topics & Concepts

NanoparticleSynchrotron radiationAbsorption (acoustics)Absorption cross sectionDissipationSynchrotronMaterials scienceScatteringCross section (physics)Extinction (optical mineralogy)NanorodRadiationOpticsMolecular physicsAtomic physicsChemistryNanotechnologyPhysicsComposite materialThermodynamicsQuantum mechanicsSpectroscopy Techniques in Biomedical and Chemical ResearchBoron and Carbon Nanomaterials ResearchField-Flow Fractionation Techniques
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