Advanced review of the contributing factors for the Microwave Digestion of food matrices for trace elemental analysis

IF 4.1 Q1 CHEMISTRY, ANALYTICAL
Aisling Sheehan, Ambrose Furey
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引用次数: 0

Abstract

Microwaves are electromagnetic waves which move at the speed of light. Samples directly exposed to this phenomenon are heated faster than conventional conduction heating methods. This is exploited in acid assisted digestion where a food sample in a suitable acid matrix can be completely destroyed leaving a clear solution of measurable elements. In pressurised systems the temperature can be rapidly increased far above the conventional boiling point of the solvent and the closed microwave vessel environment is ideal for volatile elements.

There is a constant aspiration to achieve lower levels of detection and advances in instrument capabilities with specialised plasma based techniques for the identification and quantification of individual elements at ultra-trace levels have evolved. To realise this; sample preparation, digestion efficiency and sample introduction need to be optimised. Exogenous inputs such as preparation environment, reagent grade, the analyst and apparatus cleaning steps all have the potential to leave an elemental footprint on the sample and therefore contribute to the uncertainty of the analytical result. Knowledge of sample composition and subsequent interaction with microwaves and plasma are an important consideration for complete digestion without which the result is not accurate.

Abstract Image

微波消解食品基质进行痕量元素分析的诱因高级审查
微波是以光速运动的电磁波。与传统的传导加热方法相比,直接暴露在这种现象下的样品加热速度更快。在酸辅助消化中,食物样品在适当的酸基质中会被完全破坏,留下含有可测量元素的透明溶液。在加压系统中,温度可以迅速升高,远远超过溶剂的传统沸点,封闭的微波容器环境非常适合挥发性元素的检测。为实现这一目标,需要对样品制备、消化效率和样品引入进行优化。外源输入,如制备环境、试剂等级、分析师和仪器清洁步骤,都有可能在样品上留下元素足迹,从而导致分析结果的不确定性。了解样品成分以及随后与微波和等离子体的相互作用是完全消解的重要考虑因素,否则结果就不准确。
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来源期刊
Talanta Open
Talanta Open Chemistry-Analytical Chemistry
CiteScore
5.20
自引率
0.00%
发文量
86
审稿时长
49 days
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