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Spektralne lastnosti in obnašanje različnih pufrskih sistemov
ID Škrjanec, Manca (Author), ID Gros, Nataša (Mentor) More about this mentor... This link opens in a new window

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Abstract
V diplomskem delu so bile z molekularno absorpcijsko spektrometrijo raziskane spektralne lastnosti petih pufrskih raztopin, ki so bile pripravljene v različnih razmerjih pufrskih oblik, kar je vplivalo na spremembe v pH vrednosti raztopin. Analizirane so bile raztopine ftalata z dodatkom NaOH, citrata z dodatkom HCl, raztopini citrata v kombinaciji s ftalatom ter HEPES-om, ter raztopino HEPES-a v kombinaciji z dodatkom citrata. Rezultati so pokazali, da je pufrsko obnašanje ftalata z dodatkom NaOH in citrata z dodatkom HCl manj kompleksno, ter da je sprememba v pH bolj izrazita v primerjavi z ostalimi pripravljenimi raztopinami. Spreminjanje pH smo v teh primerih lahko opisali s pKa vrednostmi protolize za ftalat oz. citrat. Nasprotno pa smo morali pri ostalih raztopinah upoštevati še pKa vrednosti dodane substance, kar nekoliko oteži natančno razlago obnašanja pufra. Pri vrednotenju spektralnih lastnosti smo ugotovili, da trinatrijev citrat, kalijev hidrogenftalat in HEPES absorbirajo svetlobo v UV območju, z značilnimi vrhovi, ki so odvisni od njihovih elektronskih prehodov znotraj molekule. Ugotovili smo, da ftalat absorbira največ svetlobe, medtem ko jo HEPES najmanj. Za zelo pomemben dejavnik, ki je vplival na spektre pufrskih raztopin citrata in HEPES-a se je izkazalo topilo Mili-Q voda. Pri redčenih raztopinah smo opazili premik absorpcijskih vrhov proti krajšim valovnim dolžinam, izven merilnega območja. Razumevanje interakcij pufrskih sistemov in njihovih spektralnih lastnosti je ključno za ustrezno izbiro pufrov v kemijskih aplikacijah.

Language:Slovenian
Keywords:pH, molekularna absorpcijska spektrometrija, spektri v UV območju, trinatrijev citrat, kalijev hidrogenftalat, HEPES
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-161051 This link opens in a new window
COBISS.SI-ID:213277699 This link opens in a new window
Publication date in RUL:06.09.2024
Views:222
Downloads:124
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Secondary language

Language:English
Title:Spectral characteristics and behaviour of different buffer systems
Abstract:
In the thesis, the spectral properties of five buffer solutions prepared in different buffer ratios which influenced the changes in the pH of the solutions were investigated by molecular absorption spectrometry. The analysed buffer solutions were phthalate with NaOH, citrate with HCl, citrate in combination with phthalate and HEPES, and HEPES in combination with citrate. The results showed that the buffering behaviour of phthalate with NaOH and citrate with HCl is less complex and that the change in pH is more significant compared to the other prepared solutions. In these cases, the pH change could be described by the pKa values of the protolysis for phthalate and citrate, respectively. In contrast, for the other solutions we had to take into account the pKa values of the added substance, which makes it somewhat more difficult to interpret the exact behaviour of the buffer. When evaluating the spectral properties, we found that trisodium citrate, potassium hydrogen phthalate and HEPES absorb light in the UV range, with characteristic peaks that depend on their intramolecular electronic transitions. We discovered that phthalate absorbs the light the most intensively, while HEPES absorbs the least. The solvent Mili-Q water was found to be a very important factor influencing the spectra of the citrate and HEPES buffer solutions. For the diluted solutions, a shift of the absorption peaks towards shorter wavelengths, outside the measurement range, was observed. The importance of understanding the interactions of buffer systems and their spectral properties is crucial for the appropriate selection of buffers in chemical applications.

Keywords:pH, molecular absorption spectrometry, spectra in the UV range, trisodium citrate, potassium hydrogen phthalate, HEPES

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