Analytical Chemistry Research Group, Department of Physical and Analytical Chemistry, University of Jaén, Campus Las Lagunillas, 23071 Jaén, Spain.
ISAS─Leibniz Institut für Analytische Wissenschaften, Bunsen-Kirchhoff-Str. 11, 44139 Dortmund, Germany.
Anal Chem. 2023 Dec 19;95(50):18370-18378. doi: 10.1021/acs.analchem.3c03009. Epub 2023 Oct 30.
The present study investigated the potential for solvent-assisted laser desorption coupled with flexible microtube plasma ionization mass spectrometry (SALD-FμTP-MS) as a rapid analytical technique for direct analysis of surface-deposited samples. Paper was used as the demonstrative substrate, and an infrared hand-held laser was employed for sample desorption, aiming to explore cost-effective sampling and analysis methods. SALD-FμTP-MS offers several advantages, particularly for biofluid analysis, including affordability, the ability to analyze low sample volumes (<10 μL), expanded chemical coverage, sample and substrate stability, and in situ analysis and high throughput potential. The optimization process involved exploring the use of viscous solvents with high boiling points as liquid matrices. This approach aimed to enhance desorption and ionization efficiencies. Ethylene glycol (EG) was identified as a suitable solvent, which not only improved sensitivity but also ensured substrate stability during analysis. Furthermore, the addition of cosolvents such as acetonitrile/water (1:1) and ethyl acetate further enhanced sensitivity and reproducibility for a standard solution containing amphetamine, imazalil, and cholesterol. Optimized conditions for reproducible and sensitive analysis were determined as 1000 ms of laser exposure time using a 1 μL solvent mixture of 60% EG and 40% acetonitrile (ACN)/water (1:1). A mixture of 60% EG and 40% ACN/water (1:1) resulted in signal enhancements and relative standard deviations of 12, 20, and 13% for the evaluated standards, respectively. The applicability of SALD-FμTP-MS was further evaluated by successfully analyzing food, water, and biological samples, highlighting the potential of SALD-FμTP-MS analysis, particularly for thermolabile and polarity diverse compounds.
本研究探讨了溶剂辅助激光解吸与柔性微管等离子体电离质谱(SALD-FμTP-MS)相结合作为直接分析表面沉积样品的快速分析技术的潜力。本文以纸张为示范基底,采用手持红外激光进行样品解吸,旨在探索具有成本效益的采样和分析方法。SALD-FμTP-MS 具有多种优势,特别是在生物流体分析方面,包括经济实惠、能够分析低体积样品(<10 μL)、扩展的化学覆盖范围、样品和基底稳定性、原位分析和高通量潜力。优化过程涉及探索使用具有高沸点的粘性溶剂作为液体基质。这种方法旨在提高解吸和电离效率。乙二醇(EG)被确定为一种合适的溶剂,它不仅提高了灵敏度,而且确保了分析过程中基底的稳定性。此外,添加乙腈/水(1:1)和乙酸乙酯等共溶剂进一步提高了包含安非他命、异菌脲和胆固醇的标准溶液的灵敏度和重现性。确定了可重复且灵敏分析的优化条件为使用 1 μL 的 60% EG 和 40% 乙腈/水(1:1)溶剂混合物进行 1000 ms 的激光暴露时间。60% EG 和 40% 乙腈/水(1:1)的混合物分别导致评估标准的信号增强和相对标准偏差为 12%、20%和 13%。通过成功分析食品、水和生物样品进一步评估了 SALD-FμTP-MS 的适用性,突出了 SALD-FμTP-MS 分析的潜力,特别是对于热不稳定和极性多样的化合物。