Endogenous fluorescence of biodiesel and products thereof: Investigation of the molecules responsible for this effect

Abstract

Regardless of the emergent use of fluorescence as an analytical method to investigate biodiesel no detailed discussion about the origin of the visible fluorescence in different biodiesel samples has been reported. Here, UV–Vis absorption and fluorescence analysis of biodiesels (soybean, corn, canola, and sunflower), standard methyl esters (stearate, palmitate, oleate, linoleate and linolenate), phenolic antioxidants, β-carotene, α-tocopherol, and chlorophyll were performed in order to investigate the molecules responsible for the fluorescence in biodiesel. Additionally, mid-infrared absorption, gas chromatography as well as 13C and 1H nuclear magnetic resonance measurements were also carried out. The findings reveal the presence of fluorescent molecules such as conjugated tetraenes in both the standard methyl esters and biodiesel, and so these minority compounds could explain the visible fluorescence of these biodiesel samples in the 350–500nm range under UV excitation, excluding the contribution of free fatty acids, tocopherols, carotenoids, phenolic antioxidants and chlorophyll. The results also indicate that as higher the methyl linolenate content in the biodiesel as higher the concentration of conjugated tetraenes in the biodiesel sample, explaining the intense visible fluorescence observed mainly in the soybean and canola biodiesel.