Trace carbonyl compounds play a critical role in wine aroma due to their extremely low sensory thresholds. The analytical challenge arises from the structural diversity of these compounds, which span a broad range of volatility and polarity, as well as from their occurrence at trace levels in a complex matrix. Current approaches frequently rely on derivatization to achieve adequate sensitivity and stability. In this work, a high-sensitivity, derivatization-free analytical strategy is proposed for the quantification of ketones, alkanals, alkenals, and alkadienals in wine, based on a dual preconcentration approach combining solid phase extraction (SPE) and stir bar sorptive extraction (SBSE), followed by thermal desorption and heart-cutting comprehensive gas chromatography coupled to mass spectrometry (TD-GC-(FID)-GC-MS). Key parameters affecting extraction efficiency and chromatographic performance were systematically optimized, including SPE breakthrough volume, elution conditions, SBSE dilution factor, ionic strength, analyte load, and extraction time. The implementation of heart-cutting GC provided enhanced chromatographic resolution and selectivity for these carbonyls, while reducing interferences and instrumental noise, thereby improving overall sensitivity. The validated method demonstrated good linearity, repeatability (<10%), and reproducibility (<13%), with detection limits below reported sensory thresholds. The method was successfully applied to 63 young red wine samples, enabling the quantification of trace carbonyls across a wide concentration range. By eliminating derivatization while achieving high sensitivity and robust performance in a complex matrix, the proposed methodology represents a significant analytical advancement for the determination of trace carbonyl compounds in wine. • Derivatization-free method for trace green-note carbonyls in wine • Combined solid phase and sorptive extraction boosts sensitivity • Bidimensional heart-cutting gas chromatography enables efficient separation • Detection limits below sensory perception thresholds have been achieved • Method was applied to 63 young red wines
Buñuel-Escudero et al. (Wed,) studied this question.