Sandy Frank scite author profile

Sandy Frank

3Publications

40Citation Statements Received

72Citation Statements Given

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Firmenich (Switzerland)

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Terpene hydroperoxide chemistry in citrus oils; reaction with endogenous aldehydes to form peroxyhemiacetals

Calandra

Wang

Impellizzeri

et al. 2016

Flavour & Fragrance J

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Limonene and linalool are major components in many essential oils, and both readily autoxidize to form terpene hydroperoxides. These hydroperoxides are sensitizers capable of causing allergic contact dermatitis, so it is important to have accurate analytical methods for them in perfumery raw materials and formulations. This laboratory has previously reported a method to detect terpene hydroperoxides based on high‐performance liquid chromatography using a post‐column chemiluminescence reaction. Using this method, it was shown that peroxyhemiacetals formed by reaction of terpene hydroperoxides with endogenous aldehydes exist as components in common citrus oils. This was further substantiated by NMR analysis using a variety of techniques. Some percentage of the peroxyhemiacetals can dissociate back to the corresponding parent terpene hydroperoxides and aldehydes under certain conditions which are currently not fully understood, even if the polarity of the solvating environment appear to be important. However, gas chromatographic analysis indicates that there may also be alternative degradation pathways. The presence and chemical behaviour of peroxyhemiacetals must be studied further and analytically accounted for, if meaningful results are to be obtained in the context of the dermal sensitizing potency of a sample. Copyright © 2016 John Wiley & Sons, Ltd.

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Competition between surfactants and apolar fragrances in micelle cores

Fieber

Frank

Herrero

2018

Colloids and Surfaces A: Physicochemical and Engineering Aspect

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Quantification of hydroperoxides by gas chromatography‐flame ionization detection and predicted response factors

Leocata

Frank

Wang

et al. 2016

Flavour & Fragrance J

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The quantification of hydroperoxides is crucial in several areas, in particular in the fragrance domain, because they have been identified as skin sensitizers. The reference compounds necessary to calibrate the instruments have very limited availability, and require drastic storage conditions (-78°C) due to their instability. To overcome these limitations, we propose a GC-FID approach involving their silylation, and the prediction of response factors. This procedure provides a good alternative to a full calibration down to a concentration level of 500 mg/kg, with an underestimation of about 20%. In the analysis of essential oils and fragrance concentrates, larger deviations are found; however, they are not inherent in the technique but rather in the chemistry of hydroperoxides that readily react with aldehydes to form peroxyhemiacetals, thereby decreasing the concentration of free hydroperoxides. These observations are in agreement with quantitative 1 H NMR and HPLC-Chemiluminescence analyses.

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Sandy Frank

Terpene hydroperoxide chemistry in citrus oils; reaction with endogenous aldehydes to form peroxyhemiacetals

Competition between surfactants and apolar fragrances in micelle cores

Quantification of hydroperoxides by gas chromatography‐flame ionization detection and predicted response factors

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