The effect of probe density coverage on the detection of oenological tannins in quartz crystal microbalance with dissipation monitoring (QCM‐D) experiments

Author:

Gagliardi Mariacristina1ORCID,Tori Giorgia1,Sanmartin Chiara2ORCID,Cecchini Marco1

Affiliation:

1. NEST, Istituto Nanoscienze – CNR and Scuola Normale Superiore Pisa Italy

2. Department of Agriculture Food Environment University of Pisa Pisa Italy

Abstract

AbstractBACKGROUNDPolyphenols are a group of compounds found in grapes, musts, and wines. Their levels are crucial for grape ripening, proper must fermentation, and final wine characteristics. Standard chemical analysis is commonly used to detect these compounds, but it is costly, time consuming, and requires specialized laboratories and operators. To address this, this study explores a functionalized acoustic sensor for detecting oenological polyphenols.RESULTSThe method involves utilizing a quartz crystal microbalance with dissipation monitoring (QCM‐D) to detect the target analyte by using a gelatin‐based probe layer. The sensor is functionalized by optimizing the probe coverage density to maximize its performance. This is achieved by using 12‐mercaptododecanoic acid (12‐MCA) to immobilize the probe onto the gold sensor surface, and dithiothreitol (DTT) as a reducing and competitive binding agent. The concentration of 12‐MCA and DTT in the solutions is varied to control the probe density. QCM‐D measurements demonstrate that the probe density can be effectively adjusted using this approach, ranging from 0.2 × 1013 to 2 × 1013 molecules cm−2. This study also investigates the interaction between the probe and tannins, confirming the ability of the sensor to detect them. Interestingly, the lower probe coverage achieves higher detection signals when normalized to probe immobilization signals. Moreover, significant changes in mechanical properties of the functionalization layer are observed after the interaction with samples.CONCLUSIONThe combination of QCM‐D with gelatin functionalization holds great promise for future applications in the wine industry. It offers real‐time monitoring capabilities, requires minimal sample preparation, and provides high sensitivity for quality control purposes. © 2024 Society of Chemical Industry.

Funder

Ministero dell'Università e della Ricerca

Publisher

Wiley

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