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Modifikacije sitotiskanih elektrod za analizo vodikovega peroksida
ID Svete, Maja (Author), ID Kolar, Mitja (Mentor) More about this mentor... This link opens in a new window

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Abstract
Vodikov peroksid je pomemben analit v analizni kemiji, saj je prisoten v tekstilni in papirni industriji ter v zdravstvu in gospodinjstvu zaradi svojega antimikrobnega delovanja. Kot močan oksidant zahteva natančno regulacijo koncentracije v vseh procesih, zato je natančno in zanesljivo določanje vodikovega peroksida zelo pomembno. Zaradi svoje visoke občutljivosti in preprostosti uporabe so se kot zelo učinkovite izkazale elektrokemijske metode, še posebej amperometrični senzorji. Uporaba nanodelcev, kot so kovinski oksidi in grafenski nanomateriali, dodatno izboljša učinkovitost teh senzorjev. Nanodelci povečajo površinsko aktivnost elektrod, izboljšajo prevodnost in omogočajo hitrejši prenos elektronov, kar vodi k večji občutljivosti in natančnosti pri analizi vodikovega peroksida. V sklopu diplomske naloge sem raziskovala modifikacije sitotiskanih elektrod (SPE) za analizo vodikovega peroksida. Med meritvami sem preučevala odziv SPE elektrode v različnih raztopinah. Površino delovne elektrode sem modificirala s turbostratičnim grafenom, pridobljenim s tehniko bliskovitega Joulovega segrevanja z namenom povečanja elektrodne površine ter izboljšanja elektrokemijskih lastnosti, in z manganovim dioksidom, ki deluje kot katalizator razpada vodikovega peroksida. Izbrala sem optimalno modifikacijo elektrode in določila najbolj primeren medij za določevanje vodikovega peroksida v realnem vzorcu. Preverila sem linearno območje odziva elektrode, mejo zaznave (LOD), meddnevno ponovljivost in življenjsko dobo elektrod. Metoda je bila uspešno potrjena z analizo realnega vzorca vodikovega peroksida.

Language:Slovenian
Keywords:vodikov peroksid, sitotiskane elektrode, turbostratični grafen, elektrokemijski senzor
Work type:Bachelor thesis/paper
Typology:2.11 - Undergraduate Thesis
Organization:FKKT - Faculty of Chemistry and Chemical Technology
Year:2024
PID:20.500.12556/RUL-161069 This link opens in a new window
COBISS.SI-ID:213309955 This link opens in a new window
Publication date in RUL:06.09.2024
Views:206
Downloads:92
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Secondary language

Language:English
Title:Modifications of screen-printed electrodes for hydrogen peroxide analysis
Abstract:
Hydrogen peroxide is an important analyte in analytical chemistry because of its presence in both textile and paper industries, as well as in healthcare and households due to antimicrobial properties. As a strong oxidant, it requires precise concentration regulation in all processes, making accurate and reliable determination of hydrogen peroxide very important. Due to their high sensitivity and simplicity, electrochemical methods, especially amperometric sensors, have proven to be very effective. The use of nanoparticles, such as metal oxides and graphene nanomaterials, further enhances the efficiency of these sensors. Nanoparticles increase the surface activity of the electrodes, improve conductivity, and enable faster electron transfer, leading to higher sensitivity and precision in the analysis of hydrogen peroxide. In this work, I focused on modifications of screen-printed electrodes (SPE) for the analysis of hydrogen peroxide. Through measurements, I studied the response of the SPE electrode in various solutions. I modified the surface of the working electrode with turbostratic graphene, obtained through flash Joule heating, to increase the electrode surface area and improve electrochemical properties, and with manganese dioxide, which acts as a catalyst for the decomposition of hydrogen peroxide. I chose the best modification and determined the most suitable solution for determination of hydrogen peroxide in a real sample. I examined the linear range of electrode, the limit of detection (LOD), the reproducibility, and lifetime of electrodes. The method was successfully validated by analyzing a real hydrogen peroxide sample.

Keywords:hydrogen peroxide, screen-printed electrodes, turbostratic graphene, electrochemical sensor

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