School of Chemical Engineering and Australian Centre for Nanomedicine (ACN), The University of New South Wales (UNSW Sydney), Sydney, NSW 2052, Australia.
Mark Wainwright Analytical Centre, The University of New South Wales (UNSW Sydney), Sydney, NSW 2052, Australia.
J Colloid Interface Sci. 2020 Jul 15;572:31-38. doi: 10.1016/j.jcis.2020.03.040. Epub 2020 Mar 18.
Current food date marking tools fail to take into account variables that impact shelf life, leading to food waste and posing human health risks. Herein, we develop a polydiacetylene/zinc oxide (PDA/ZnO) colorimetric sensor that can indicate milk freshness in real time. The PDA/ZnO system is engineered to indicate the freshness of full cream milk by monitoring its pH based on lactic acid concentration, an indicator of bacterial spoilage. The sensitivity is tuned by selection of the diacetylene monomers from which it is composed. Designs constructed from shorter chain diacetylenes are found to undergo chromatic transitions at a lower lactic acid concentration. Two new methods to tune PDA/ZnO sensitivity to lactic acid are explored, including relocation of the diacetylene functional group and lipid doping. A system constructed from 5,7-hexadecadiynoic acid (HDDA) and ZnO can discriminate between fresh (pH 6.8-6.0), spoiling (pH 6.0-4.5), and spoiled milk (pH 4.5-4.0) by a respective blue to purple to red color change. The chromatic stability of the PDA/ZnO sensor in food is studied as previous reports have shown the system to be unstable. We present a new method that stabilizes the nanocomposite by pre-exposure to the food matrix prior to photopolymerization.
目前的食品日期标记工具未能考虑到影响保质期的变量,导致食物浪费,并对人类健康构成风险。在此,我们开发了一种聚二乙炔/氧化锌(PDA/ZnO)比色传感器,可实时指示牛奶的新鲜度。该系统通过监测基于乳酸浓度的 pH 值来指示全脂牛奶的新鲜度,乳酸浓度是细菌变质的指标。通过选择组成它的二乙炔单体来调整灵敏度。发现由较短链二乙炔组成的设计在较低的乳酸浓度下经历颜色转变。探索了两种新的方法来调整 PDA/ZnO 对乳酸的灵敏度,包括二乙炔官能团的重新定位和脂质掺杂。由 5,7-十六碳二炔酸(HDDA)和 ZnO 构建的系统可以通过相应的蓝色到紫色到红色颜色变化来区分新鲜(pH 6.8-6.0)、变质(pH 6.0-4.5)和变质的牛奶(pH 4.5-4.0)。先前的报告表明该系统不稳定,因此我们研究了 PDA/ZnO 传感器在食品中的颜色稳定性,并提出了一种在光聚合前预先暴露于食品基质以稳定纳米复合材料的新方法。
