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Katja Kramberger

                spekter, ki predstavlja delež transmitirane svetlobe. Valovna dolžina ab-
                sorpcijskih pasov je značilna za določeno vrsto kemijskih vezi, zato lahko
                z IR-spektroskopijo kvalitativno analiziramo organske spojine. Predvsem
                lahko potrdimo identiteto določene spojine, če posneti spekter primerja-
                mo z referenčnim, v pomoč pa nam je tudi pri določanju strukture novo-
                sintetiziranih molekul. Tekoči vzorci so identificirani na ploščah z natri-
                jevim kloridom, trdni vzorci pa s kalijevim bromidom in stisnjeni v tanek
                pelet (Abubakar in Haque 2020; Sahira Banu in Cathrine 2015).
                   Viri

                   Abubakar, A. R., in M. Haque. 2020. »Preparation of Medicinal Plants: Basic
                       Extraction and Fractionation Procedures for Experimental Purposes.«
                       Journal of Pharmacy and Bioallied Sciences 12 (1): 1–10. https://doi.org
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                   Almeida, H. H. S., I. P. Fernandes, J. S. Amaral, A. E. Rodrigues in M.-F. Barre-
                       iro. 2024. »Unlocking the Potential of Hydrosols: Transforming Essential
                       Oil Byproducts into Valuable Resources.« Molecules 29 (19): 4660.
                   Altemimi, A., N. Lakhssassi, A. Baharlouei, D. G. Watson in D. A. Lightfo-
                       ot.  2017.  »Phytochemicals:  Extraction,  Isolation,  and  Identification  of
                       Bioac tive Compounds from Plant Extracts.« Plants 6 (4): 42.
                   D’Abrosca, B., E. Buommino, G. D’Angelo idr. 2013. »Spectroscopic Identi-
                       fication and Anti-Biofilm Properties of Polar Metabolites from the Me-
                       dicinal Plant Helichrysum italicum Against Pseudomonas aeruginosa.«
                       Bioorganic and Medicinal Chemistry 21 (22): 7038–7046.
                   Ingle, K. P., A. G. Deshmukh, D. A. Padole, M. S. Dudhare, M. P. Moharil in V.
                       C. Khelurkar. 2017. »Phytochemicals: Extraction Methods, Identificati-
                       on and Detection of Bioactive Compounds from Plant Extracts.« Journal
                       of Pharmacognosy and Phytochemistry 6 (1): 32–36.
                   Jokić, S., M. Rajić, B. Bilić in M. Molnar. 2016. »Supercritical Extraction of
                       Scopoletin from Helichrysum italicum (Roth) G. Don Flowers.« Phyto-
                       chemical Analysis: PCA 27 (5): 290–295.
                   Kramberger, K., Z. Jenko Pražnikar, A. Baruca Arbeiter, A. Petelin, D. Bandelj
                       in S. Kenig. 2021. »A Comparative Study of the Antioxidative Effects of
                       Helichrysum italicum and Helichrysum arenarium Infusions.« Antioxi-
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                   Kramberger, K., D. Barlič-Maganja, D. Bandelj idr. 2020. »HPLC-DAD-ESI-
                       -QTOF-MS Determination of Bioactive Compounds and Antioxidant
                       Activity Comparison  of the  Hydroalcoholic  and Water  Extracts  from
                       Two Helichrysum italicum Species.« Metabolites 10 (10): 403.



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