Perspective on sample preparation fundamentals

IF 5.2 Q1 CHEMISTRY, ANALYTICAL
Martyna N. Wieczorek , Wei Zhou , Janusz Pawliszyn
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Abstract

The primary objective of this contribution is to offer insights into fundamentals associated with typical sample preparation, facilitating rational design of new analytical technologies and effective optimization of existing techniques. Sample preparation stands a pivotal stage in the analytical process. Unfortunately, the optimization of associated parameters often relies on trial and error rather than systematic scientific methodologies. If an extraction method provides good recovery of spikes of standards, it is assumed that it works well and no further consideration is given to the underlying principles driving its performance. In the realm of sample preparation, the fundamentals of method optimization are not accorded the same significance as in other technologies, such as chromatography or mass spectrometry. Consequently, the fundamentals of sample preparation are typically overlooked in analytical chemistry curricula.

A notable impediment to progress in the sample preparation area is underdeveloped understanding of the fundamentals of extraction, particularly when dealing with natural, often complex samples, where native analyte-matrix interaction is different compared to spikes. This stands in contrast to the physiochemically simpler systems employed in separation and quantification steps, such as chromatography and mass spectrometry.

A careful consideration of the underlying principles of sampling and sample preparation can lead to the creation of more efficient and environmentally friendly technologies. Embracing these principles aligns with global shift towards more sustainable future, challenging the perception that sample preparation is solely an artistic endeavour and highlighting its potential as a scientifically grounded discipline.

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样品制备基础透视
这篇论文的主要目的是深入探讨与典型样品制备相关的基本原理,促进新分析技术的合理设计和现有技术的有效优化。样品制备是分析过程的关键阶段。遗憾的是,相关参数的优化往往依赖于试验和错误,而不是系统的科学方法。如果一种萃取方法能很好地回收标准样品,就认为这种方法效果很好,而不会进一步考虑其性能的基本原理。在样品制备领域,方法优化的基本原理不像色谱或质谱等其他技术那样重要。样品制备领域取得进展的一个显著障碍是对萃取基本原理的认识不足,特别是在处理天然样品时,通常是复杂样品,因为天然样品中分析物与基质之间的相互作用与尖峰样品不同。这与色谱法和质谱法等分离和定量步骤中使用的生理化学更简单的系统形成了鲜明对比。仔细考虑采样和样品制备的基本原理,可以创造出更高效、更环保的技术。采用这些原则符合全球向更可持续的未来转变的趋势,挑战了样品制备仅仅是一项艺术工作的看法,并突出了其作为一门以科学为基础的学科的潜力。
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CiteScore
3.50
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