利用破乳萃取和 MIP OES 开发测定手工巧克力中无机元素的简便方法

IF 2.6 3区 农林科学 Q2 FOOD SCIENCE & TECHNOLOGY
Geovana B. Guimarães, Leonardo B. Guimarães, Julia C. Romero, Sheylla M. S. Queiroz, Daniel C. Lima, Luana N. Santos, Erik G. P. da Silva, Raildo M. de Jesus, Fábio S. Dias, Fábio G. Lepri, Allison G. Silva, Fábio Alan C. Amorim
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After study of each parameter, the most efficient extraction conditions were obtained using 0.250 g of sample, 5.0 mL of extraction solution consisting of HNO<sub>3</sub> 1.5 mol L<sup>−1</sup> and Tween 80 1.5% m/v, submitted to an ultrasonic bath for 5 min, followed by breaking the emulsion by heating at 90 °C in a water bath for 4 min. The detection limits obtained, in mg kg<sup>−1</sup>, were 0.35 (Cr), 0.013 (Zn), 0.064 (Sr), 0.083 (Ca), 0.46 (Fe), 0.010 (Ba), 0.099 (Cu), 0.016 (Mg), and 0.036 (Mn). Precision, based on the relative standard deviation (RSD%), was less than 9.8% (<i>N</i> = 7). The accuracy was confirmed by analyzing the SRM Baking Chocolate 2384 and comparing the proposed method with a calcination method. The method was applied to samples of chocolate bars made in the southern region of Bahia and containing cocoa contents at 50, 58, 60, 63, 70, 80, and 85%. 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引用次数: 0

摘要

本研究的目的是利用微波诱导等离子体光学发射光谱法(MIP OES)测定手工巧克力样品中经破乳萃取(EIEB)后的钙、锌、锶、钡、铜、锰、镁和铬的多元素含量。在对各参数进行研究后,得出了最有效的萃取条件:取 0.250 克样品,加入 5.0 mL 由 1.5 mol L-1 的 HNO3 和 1.5% m/v 的吐温 80 组成的萃取液,在超声波浴中浸泡 5 分钟,然后在 90 °C 的水浴中加热破乳 4 分钟。检测限(毫克/千克-1)分别为 0.35(铬)、0.013(锌)、0.064(锶)、0.083(钙)、0.46(铁)、0.010(钡)、0.099(铜)、0.016(镁)和 0.036(锰)。根据相对标准偏差 (RSD%) 计算的精确度低于 9.8%(N = 7)。通过分析 SRM 烘焙巧克力 2384,并将所建议的方法与煅烧法进行比较,证实了该方法的准确性。该方法适用于巴伊亚州南部地区生产的巧克力棒样品,可可含量分别为 50、58、60、63、70、80 和 85%。平均结果为:328 至 1424 毫克/千克-1(钙)、561 至 2152 毫克/千克-1(镁)、7.8 至 251 毫克/千克-1(铜)、8.5 至 304 毫克/千克-1(锰)、6.22 至 98.32 毫克/千克-1(铁)、8.38 至 80.2 毫克/千克-1(锌)、3.4 至 175 毫克/千克-1(钡)和 2.15 至 12.79 毫克/千克-1(锶)。据观察,随着可可比例的增加,所研究元素的浓度也呈上升趋势。所开发的方法具有令人满意的精确度和准确度,而且简单、快速、试剂消耗少、灵敏度高,特别是与消化法相比。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Development of Simple Method for Multi-elemental Determination of Inorganic Elements in Handmade Chocolate Employing Extraction Induced by Emulsion Breaking and MIP OES

Development of Simple Method for Multi-elemental Determination of Inorganic Elements in Handmade Chocolate Employing Extraction Induced by Emulsion Breaking and MIP OES

The objective of this work was the multi-element determination of Ca, Zn, Sr, Ba, Cu, Mn, Mg, and Cr in handmade chocolate samples after extraction induced by emulsion breakage (EIEB) using optical emission spectrometry with plasma induced by microwaves (MIP OES). After study of each parameter, the most efficient extraction conditions were obtained using 0.250 g of sample, 5.0 mL of extraction solution consisting of HNO3 1.5 mol L−1 and Tween 80 1.5% m/v, submitted to an ultrasonic bath for 5 min, followed by breaking the emulsion by heating at 90 °C in a water bath for 4 min. The detection limits obtained, in mg kg−1, were 0.35 (Cr), 0.013 (Zn), 0.064 (Sr), 0.083 (Ca), 0.46 (Fe), 0.010 (Ba), 0.099 (Cu), 0.016 (Mg), and 0.036 (Mn). Precision, based on the relative standard deviation (RSD%), was less than 9.8% (N = 7). The accuracy was confirmed by analyzing the SRM Baking Chocolate 2384 and comparing the proposed method with a calcination method. The method was applied to samples of chocolate bars made in the southern region of Bahia and containing cocoa contents at 50, 58, 60, 63, 70, 80, and 85%. The average results obtained were 328 to 1424 mg kg−1 (Ca), 561 to 2152 mg kg−1 (Mg), 7.8 to 251 mg kg−1 (Cu), 8.5 to 304 mg kg−1 (Mn), 6.22 to 98.32 mg kg−1 (Fe), 8.38 to 80.2 mg kg−1 (Zn), 3.4 to 175 mg kg−1 (Ba), and 2.15 to 12.79 mg kg−1 (Sr). It was observed that as the percentage increases cocoa, there is a tendency to increase the concentration of the studied elements. The developed method has satisfactory precision and accuracy, and is simple, fast and with low consumption of reagents, has good sensitivity, especially when compared to digestion methods.

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来源期刊
Food Analytical Methods
Food Analytical Methods 农林科学-食品科技
CiteScore
6.00
自引率
3.40%
发文量
244
审稿时长
3.1 months
期刊介绍: Food Analytical Methods publishes original articles, review articles, and notes on novel and/or state-of-the-art analytical methods or issues to be solved, as well as significant improvements or interesting applications to existing methods. These include analytical technology and methodology for food microbial contaminants, food chemistry and toxicology, food quality, food authenticity and food traceability. The journal covers fundamental and specific aspects of the development, optimization, and practical implementation in routine laboratories, and validation of food analytical methods for the monitoring of food safety and quality.
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