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Priprava zlatih nanoploščic in njihovo združevanje s srebrnimi nanoploščicami
ID Gadour Šentjurc, Idris (Author), ID Podgornik, Aleš (Mentor) More about this mentor... This link opens in a new window

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Abstract
Zlate nanoploščice spadajo pod nanomateriale, kar pomeni, da imajo vsaj eno dimenzijo manjšo od 100 nm. Koloidi zlatih nanodelcev izgledajo drugače kot bi pričakovali zaradi lokalizirane površinske plazmonske resonance, saj se njihova barva namesto zlate giblje med rdečo in modro. Pri rdeči barvi pričakujemo več sferičnih delcev, pri modri pa več ploščičastih. Zlate nanoploščice nastanejo zaradi dvojčične napake na {1,1,1} ploskvi. Raziskovali smo sintezne poti in različne reducente, da bi dosegli čim večji delež nanoploščic. Medtem ko je literatura navajala najvišje izkoristke pri sintezi z jodidnimi ioni in askorbinsko kislino, je edini postopek, pri katerem nam je uspelo doseči nezanemarljivo količino ploščic, sinteza inducirana s svetlobo. Poskusili smo združevati zlate nanoploščice s srebrnimi, pa nam to ni uspelo.

Language:Slovenian
Keywords:zlate nanoploščice, srebrne nanoploščice, lokalizirana površinska plazmonska resonanca, koloid.
Work type:Bachelor thesis/paper
Typology:2.11 - Undergraduate Thesis
Organization:FKKT - Faculty of Chemistry and Chemical Technology
Year:2025
PID:20.500.12556/RUL-171642 This link opens in a new window
COBISS.SI-ID:248701699 This link opens in a new window
Publication date in RUL:29.08.2025
Views:129
Downloads:26
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Secondary language

Language:English
Title:Preparation of Gold Nanoplatelets and Their Combination with Silver Nanoplatelets
Abstract:
Gold nanoplatelets are a type of nanomaterial, which means, that at least one of their dimensions is smaller than 100 nm. Colloids of gold nanoparticles appear different than what we would expect because of localised surface plasmon resonance, as their color is between red and blue instead of gold. With red color, we expect more spherical particles and with blue color more plate-like particles. Gold nanoplates form because of a twinning defect on the {1,1,1} facet. We explored the possible synthesis paths and different reducing agents with the goal of achieving the highest possible yield of nanoplatelets. While literature described the highest yield at the synthesis with iodide ions and ascorbic acid, the only process, that produced a non-negligible yieldn of nanoplates was light-induced synthesis. We also attempted to combine gold nanoplates with silver nanoplates, which was unsuccessful.

Keywords:gold nanoplates, silver nanoplates, localised surface plasmon resonance.

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