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Portable Miniature Mass Spectrometry for Enhanced On-Site Detection of Analytes in Complex Samples by Integrating Solid-Phase Microextraction and Nano-Electrospray Ionization

Xuan Liu, Baixue Wang, Haiyan Luo, Jun Zou, Bicheng Yang, Bin Hu

2024Analytical Chemistry15 citationsDOI

Abstract

On-site mass spectrometry (MS) analysis plays a crucial role in timely understanding chemical compositions of field samples but presents a challenge to miniaturization, portability, and sensitivity. In this work, a portable MS approach was developed by integrating biocompatible solid-phase microextraction (SPME) and a nano-electrospray ionization (nESI) emitter into a kit to couple miniature MS (mMS). The SPME fiber was used for on-site extractive sampling of analytes from complex liquid samples and living organisms and was then inserted into an nESI emitter for on-site MS analysis via the facile kit. The limit of detection was found to be at the pg/mL level for various compounds tested. Acceptable relative standard deviation (RSD) values (5.5–7.6%, n = 6) were obtained for direct measurement of analytes in complex matrixes; acceptable linear responses (0.1–50 ng/mL) and matrix effects (76.0–82.6%) were also found. Enhanced detection of compounds of interest in various real samples, such as food samples, human fluids, environmental water, and living organisms, was unambiguously demonstrated. Our experimental data showed that SPME-nESI-mMS is a promising tool for on-site analysis of various complex samples in significant applications including but not limited to food safety, environmental monitoring, forensic investigation, and bioanalysis.

Topics & Concepts

ChemistrySolid-phase microextractionMass spectrometryElectrospray ionizationChromatographyAnalyteElectrosprayExtractive electrospray ionizationElectrospray mass spectrometryNano-Analytical Chemistry (journal)Gas chromatography–mass spectrometrySample preparation in mass spectrometryChemical engineeringEngineeringMass Spectrometry Techniques and ApplicationsAnalytical chemistry methods developmentIon-surface interactions and analysis