Fast Chemical Analysis of Droplets Unlocked by Ultra-Fast Ion Mobility Spectrometry

Klaus Welters; Christian Thoben; Julius Schwieger; Alexander Nitschke; Tim Ostermeier; Stefan Zimmermann; Detlev Belder

doi:10.1021/acs.analchem.5c05025

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Originalsprache	Englisch
Seiten (von - bis)	22932-22938
Seitenumfang	7
Fachzeitschrift	Analytical chemistry
Jahrgang	97
Ausgabenummer	41
Frühes Online-Datum	7 Okt. 2025
Publikationsstatus	Veröffentlicht - 21 Okt. 2025

Abstract

This study presents the first coupling of high-throughput droplet microfluidics to an ultra-fast ion mobility spectrometer (IMS), providing a method for the label-free and comprehensive analysis of droplet contents at very high speeds. Building on the core strengths of IMS ─ compactness, simplicity, and cost-effectiveness ─ the added ability to capture full spectra at exceptionally short cycle times of less than 2 ms positions the technique as an exceptional platform for spectrometric analysis. The combination of a custom electrospray interface, a purpose-built monolithic fused-silica droplet generator chip, and an ultra-fast IMS enabled the chemical analysis of individual droplets in segmented flow at speeds of up to 120 Hz. The approach of droplet-based high-throughput ion mobility spectrometry (DHT-IMS) was also applied for reaction screening in nanoliter-sized droplets, exemplified by a hydrazone formation reaction between 5-methylisatin and phenylhydrazine.

ASJC Scopus Sachgebiete

Chemie (insg.)
Analytische Chemie

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Fast Chemical Analysis of Droplets Unlocked by Ultra-Fast Ion Mobility Spectrometry. / Welters, Klaus; Thoben, Christian; Schwieger, Julius et al.
in: Analytical chemistry, Jahrgang 97, Nr. 41, 21.10.2025, S. 22932-22938.

Publikation: Beitrag in Fachzeitschrift › Artikel › Forschung › Peer-Review

Welters, K, Thoben, C, Schwieger, J, Nitschke, A, Ostermeier, T, Zimmermann, S & Belder, D 2025, 'Fast Chemical Analysis of Droplets Unlocked by Ultra-Fast Ion Mobility Spectrometry', Analytical chemistry, Jg. 97, Nr. 41, S. 22932-22938. https://doi.org/10.1021/acs.analchem.5c05025

Welters, K., Thoben, C., Schwieger, J., Nitschke, A., Ostermeier, T., Zimmermann, S., & Belder, D. (2025). Fast Chemical Analysis of Droplets Unlocked by Ultra-Fast Ion Mobility Spectrometry. Analytical chemistry, 97(41), 22932-22938. https://doi.org/10.1021/acs.analchem.5c05025

Welters K, Thoben C, Schwieger J, Nitschke A, Ostermeier T, Zimmermann S et al. Fast Chemical Analysis of Droplets Unlocked by Ultra-Fast Ion Mobility Spectrometry. Analytical chemistry. 2025 Okt 21;97(41):22932-22938. Epub 2025 Okt 7. doi: 10.1021/acs.analchem.5c05025

Welters, Klaus ; Thoben, Christian ; Schwieger, Julius et al. / Fast Chemical Analysis of Droplets Unlocked by Ultra-Fast Ion Mobility Spectrometry. in: Analytical chemistry. 2025 ; Jahrgang 97, Nr. 41. S. 22932-22938.

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abstract = "This study presents the first coupling of high-throughput droplet microfluidics to an ultra-fast ion mobility spectrometer (IMS), providing a method for the label-free and comprehensive analysis of droplet contents at very high speeds. Building on the core strengths of IMS ─ compactness, simplicity, and cost-effectiveness ─ the added ability to capture full spectra at exceptionally short cycle times of less than 2 ms positions the technique as an exceptional platform for spectrometric analysis. The combination of a custom electrospray interface, a purpose-built monolithic fused-silica droplet generator chip, and an ultra-fast IMS enabled the chemical analysis of individual droplets in segmented flow at speeds of up to 120 Hz. The approach of droplet-based high-throughput ion mobility spectrometry (DHT-IMS) was also applied for reaction screening in nanoliter-sized droplets, exemplified by a hydrazone formation reaction between 5-methylisatin and phenylhydrazine.",

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AU - Welters, Klaus

AU - Thoben, Christian

AU - Schwieger, Julius

AU - Nitschke, Alexander

AU - Ostermeier, Tim

AU - Zimmermann, Stefan

AU - Belder, Detlev

PY - 2025/10/21

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AB - This study presents the first coupling of high-throughput droplet microfluidics to an ultra-fast ion mobility spectrometer (IMS), providing a method for the label-free and comprehensive analysis of droplet contents at very high speeds. Building on the core strengths of IMS ─ compactness, simplicity, and cost-effectiveness ─ the added ability to capture full spectra at exceptionally short cycle times of less than 2 ms positions the technique as an exceptional platform for spectrometric analysis. The combination of a custom electrospray interface, a purpose-built monolithic fused-silica droplet generator chip, and an ultra-fast IMS enabled the chemical analysis of individual droplets in segmented flow at speeds of up to 120 Hz. The approach of droplet-based high-throughput ion mobility spectrometry (DHT-IMS) was also applied for reaction screening in nanoliter-sized droplets, exemplified by a hydrazone formation reaction between 5-methylisatin and phenylhydrazine.

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Research@Leibniz University

Fast Chemical Analysis of Droplets Unlocked by Ultra-Fast Ion Mobility Spectrometry

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