蜂蜜的光学性质:FTIR光谱和折射法

A. Nechiporenko, O. Vezo, U. Nechiporenko, L. Plotnikova, V. Sitnikova, P. I. Ukraintseva, P. P. Plotnikov
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引用次数: 0

摘要

采用衰减全反射红外光谱法、折光法和生化分析法对115份不同植物类型、地理产地和采收年份(2019 - 2021)的蜂蜜样品进行了分析。研究了液体和结晶状态下的初始蜂蜜样品。以结晶D-glucopyranose(葡萄糖)、D-fructopyranose(果糖)及其40%溶液和转化糖为辅助物质。采用生化分析方法测定蜂蜜样品中的葡萄糖含量。根据所得数据,建立了生化分析结果与折射率、转化糖含量、湿度之间的关系。我们推导出了用折射率来评价蜂蜜中葡萄糖和果糖含量的公式。对蜂蜜的红外光谱研究表明,所有被调查的样品,无论植物来源和地理来源,都可以分为三大类:1 -葡萄糖,2 -果糖和3 -混合,两种单糖含量相近。这使得葡萄糖和果糖的α-和β-吡喃糖形式的特征波段得以识别,以及它们的变化性质取决于蜂蜜中两种单糖的结晶比例。单糖的比例不仅决定了蜂蜜中液晶结构的稳定性和结晶速率,而且还决定了它们的光学、生化和营养特性,这对于蜂蜜在医疗和药理学实践、营养和美容方面的首选使用具有重要意义。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Optical properties of honey: FTIR spectroscopy and refractometry
115 samples of honey of various botanical types, geographical origin and harvest year (2019– 2021) were analysed using attenuated total reflection infrared spectroscopy of impaired total reflection, refractometry and biochemical analysis. Initial honey samples in liquid and crystallised states were investigated. Crystalline D-glucopyranose (glucose), D-fructopyranose (fructose), their 40% solutions and invert sugar were used as auxiliary substances. Biochemical analysis was used to determine the glucose content in honey samples. Based on the obtained data, a relationship between the results of biochemical analysis and refractometry (refractive index, the content of invert sugars, humidity) was established. We deduced equations that allow the content of glucose and fructose in honey to be evaluated by the refractive index. Studying honey by IR spectroscopy showed that all investigated samples, regardless of the botanical and geographical origins, can be classified into three groups dominated by: I – glucose, II – fructose and III – mixed, with a close content of two monosaccharides. This allowed the bands characteristic of α- and β-pyranose forms of glucose and fructose to be identified, as well as the nature of their changes depending on the ratio of both monosaccharides in honey as a result of their crystallisation to be assessed. It is noted that the ratio of monosaccharides determines not only the stability of the liquid crystal structure and crystallisation rate in honey but also their optical, biochemical and nutritional properties, which are important for the preferred use of honey in medical and pharmacopoeial practice, dietetics and cosmetology.
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