532-nm Laser-Excited Raman Spectroscopic Evaluation of Iranian Honey

Bees depend on the nectar from flora for the production of honey. Different flora produces unique nectar with varying compositions resulting in almost unlimited varieties in honey. In this work, we have used the 532-nm laser-induced Raman spectroscopic technique, for the first time, to study honey v...

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Veröffentlicht in:	Food analytical methods 2022-03, Vol.15 (3), p.772-782
Hauptverfasser:	Huzortey, Andrew Atiogbe, Arefi, Abbas, Anderson, Benjamin, Khadem, Hossein, Sackey, Samuel Sonko, Mahmoodi-Khaledi, Elaheh, Tavassoli, Seyed Hassan
Format:	Artikel
Sprache:	eng
Schlagworte:	Activated carbon Activated charcoal Analytical Chemistry Charcoal Chemistry Chemistry and Materials Science Chemistry/Food Science Cost analysis Excitation spectra Flora Food Science Honey Lasers Microbiology Multivariate analysis Nectar Raman spectra Raman spectroscopy Wavelengths
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container_title	Food analytical methods
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creator	Huzortey, Andrew Atiogbe Arefi, Abbas Anderson, Benjamin Khadem, Hossein Sackey, Samuel Sonko Mahmoodi-Khaledi, Elaheh Tavassoli, Seyed Hassan
description	Bees depend on the nectar from flora for the production of honey. Different flora produces unique nectar with varying compositions resulting in almost unlimited varieties in honey. In this work, we have used the 532-nm laser-induced Raman spectroscopic technique, for the first time, to study honey varieties from Iran. The Raman spectra of different kinds of commercial honey samples were obtained using a bench-top Raman microscope. The Raman spectral band intensities improved after activated charcoal pretreatment of the honey samples. The bands of the spectra compared well with molecular designation from literature. Using both supervised and unsupervised multivariate techniques, it was possible to classify and develop models capable of predicting the different kinds of honey while also establishing critical wavelengths that characterise them. This work has been able to provide baseline Raman spectroscopic data and procedure to promote the use of 532-nm laser-induced Raman spectroscopic technique with multivariate methods for the cost-effective analysis of floral honey from Iran.
doi_str_mv	10.1007/s12161-021-02164-4
format	Article
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subjects	Activated carbon Activated charcoal Analytical Chemistry Charcoal Chemistry Chemistry and Materials Science Chemistry/Food Science Cost analysis Excitation spectra Flora Food Science Honey Lasers Microbiology Multivariate analysis Nectar Raman spectra Raman spectroscopy Wavelengths
title	532-nm Laser-Excited Raman Spectroscopic Evaluation of Iranian Honey
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