1. A New Perspective on SPME and SPME Arrow: Formaldehyde Determination by On-Sample Derivatization Coupled with Multiple and Cooling-Assisted Extractions.
- Author
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Dugheri, Stefano, Cappelli, Giovanni, Fanfani, Niccolò, Ceccarelli, Jacopo, Marrubini, Giorgio, Squillaci, Donato, Traversini, Veronica, Gori, Riccardo, Mucci, Nicola, and Arcangeli, Giulio
- Subjects
DERIVATIZATION ,FORMALDEHYDE ,POLYDIMETHYLSILOXANE ,FERULIC acid ,FOOD chemistry ,CARCINOGENS - Abstract
Formaldehyde (FA) is a toxic compound and a human carcinogen. Regulating FA-releasing substances in commercial goods is a growing and interesting topic: worldwide production sectors, like food industries, textiles, wood manufacture, and cosmetics, are involved. Thus, there is a need for sensitive, economical, and specific FA monitoring tools. Solid-phase microextraction (SPME), with O-(2,3,4,5,6-pentafluorobenzyl)-hydroxylamine (PFBHA) on-sample derivatization and gas chromatography, is proposed for FA monitoring of real-life samples. This study reports the use of polydimethylsiloxane (PDMS) as a sorbent phase combined with innovative commercial methods, such as multiple SPME (MSPME) and cooling-assisted SPME, for FA determination. Critical steps, such as extraction and sampling, were evaluated in method development. The derivatization was performed at 60 °C for 30 min, followed by 15 min sampling at 10 °C, in three cycles (SPME Arrow) or six cycles (SPME). The sensitivity was satisfactory for the method's purposes (LOD-LOQ at 11-36 ng L
−1 , and 8-26 ng L−1 , for SPME and SPME Arrow, respectively). The method's linearity ranges from the lower LOQ at trace level (ng L−1 ) to the upper LOQ at 40 mg L−1 . The precision range was 5.7–10.2% and 4.8–9.6% and the accuracy was 97.4% and 96.3% for SPME and SPME Arrow, respectively. The cooling MSPME set-up applied to real commercial goods provided results of quality comparable to previously published data. [ABSTRACT FROM AUTHOR]- Published
- 2023
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