diplomsko delo univerzitetnega študijskega programa I. stopnje
Nika Bobinski (Author), Matjaž Kristl (Mentor), Irena Ban (Co-mentor)

Abstract

V diplomskem delu smo sintetizirali magnetne nanodelce magnetita z obarjanjem ionov Fe2+ in Fe3+. Magnetit smo skupaj sintetizirali trikrat. Sintetizirane nanodelce v kombinaciji z bakrom smo mleli v različnih masnih razmerjih s planetarnim mikromlinom pri istih pogojih. Vsako mletje je potekalo pri 600 obratih na minuto. Mleli smo trikrat po dva cikla. En cikel mletja je predstavljalo 30 minut mletja in 30 minut premora. Skupaj smo posledično mleli en vzorec 3 ure. Po številnih poskusih z različnimi reprezentativnimi izbori smo pred mletjem točno določen in tudi edini vzorec 1 g bakra in 1 g magnetita druge sinteze prepihali z inertnim plinom argonom, da bi ugotovili, ali na rezultate vpliva inertna atmosfera. Ta vzorec smo naknadno primerjali z isto vsebino in pogoji mletja vzorca, le da je bilo mletje izvedeno pri atmosferi, ki jo je predstavljal zrak. Naknadno smo vsako vzorčno skupino analizirali z ustreznimi metodami. Analize smo opravljali tako z mletimi vzorci in tudi vzorci, ki so bili samo strti v terilnici s pestilom. Opravili smo termogravimetrično analizo (TGA, ang. thermogravimetric analysis), rentgensko praškovno difrakcijo (XRD, ang. X-Ray powder diffraction), uporabili sistem za lasersko merjenje velikosti delcev in zeta potenciala, ki ga imenujemo tudi metoda dinamičnega sipanja svetlobe (DLS, ang. dynamic light scattering) in izmerili Curiejevo temperaturo (Tc, ang. Curie temperature). V diplomskem delu je prikazana analiza, v kateri smo raziskovali, kakšen je bil namen sintetiziranja magnetnih nanodelcev. Delce bi uporabili v človeškem telesu v medicinske namene pri temperaturi 42 °C ali 43 °C, saj pri tej temperaturi delci izgubijo magnetne lastnosti.

Keywords

sinteza magnetita;magnetni nanodelci;planetarni mikromlin;Curiejeva temperatura;diplomske naloge;

Data

Language: Slovenian
Year of publishing:
Typology: 2.11 - Undergraduate Thesis
Organization: UM FKKT - Faculty of Chemistry and Chemical Engineering
Publisher: [N. Bobinski]
UDC: 620.3:54.057(043.2)
COBISS: 130705155 Link will open in a new window
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Downloads: 11
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Other data

Secondary language: English
Secondary title: Synthesis of magnetic nanoparticles with a planetary micromill
Secondary abstract: In the bachelor’s thesis, we synthesized magnetic nanoparticles of magnetite by precipitation of Fe2+ and Fe3+ ions. Magnetite was synthesized three times. The synthesized nanoparticles in combination with copper were milled in different mass ratios with a planetary micromill under the same conditions. Each milling was performed at 600 rpm. We milled three times for two cycles. One milling cycle consisted of 30 min milling and a 30 min pause. As a result, we milled one sample for 3 hours. After numerous experiments with different representative selections, a well-defined and only a single sample of 1 g of copper and 1 g of magnetite of the second synthesis was purged with inert gas argon to determine whether it is affected by an inert atmosphere. This sample was subsequently compared with the same content and milling conditions of the sample, except that the milling was performed in an atmosphere represented by air. Subsequently, each sample group was analyzed by appropriate methods. Analyzes were performed with both milled samples and samples that were only crushed in a pestle mortar. We performed thermogravimetric analysis (TGA), X-Ray powder diffraction (XRD), and used a system for laser measurement of particle size and zeta potential which is also called the dynamic light scattering method (DLS). We also measured the Curie temperature (Tc). The bachelor’s thesis presents an analysis where the purpose was to synthesize magnetic nanoparticles. The particles are used in the human body for medical purposes at a temperature of 42 °C or 43 °C because at this temperature, the particles lose their magnetic properties.
Secondary keywords: magnetite synthesis;magnetic nanoparticles;planetary micromill;Curie temperature;
Type (COBISS): Bachelor thesis/paper
Thesis comment: Univ. v Mariboru, Fak. za kemijo in kemijsko tehnologijo
Pages: 1 spletni vir (1 datoteka PDF (VII, 32 f.))
ID: 16231551
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