Automation of µ-SPE (Smart-SPE) and Liquid-Liquid Extraction Applied for the Analysis of Chemical Warfare Agents

Automation of µ-SPE (Smart-SPE) and Liquid-Liquid Extraction Applied for the Analysis of Chemical Warfare Agents

Existing autosamplers are frequently applied only for subjecting the samples to the instruments for injection. In our study, we have set up a TriPlusRSH autosampler mounted on a GC-FID-MS/MS system using the new Method Composer and Script Editor software to automatize all necessary sample preparatio...

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Bibliographic Details
Main Authors: Marc André Althoff, Andreas Bertsch, Manfred Metzulat
Format: Article
Language:English
Published: MDPI AG 2019-10-01
Series:Separations
Subjects:
automation
sample handling
sample preparation
chemical warfare agent
spe
lle
Online Access:https://www.mdpi.com/2297-8739/6/4/49
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spelling doaj-4dae102383844cca9f09c378619e31b02020-11-25T01:50:57ZengMDPI AGSeparations2297-87392019-10-01644910.3390/separations6040049separations6040049Automation of µ-SPE (Smart-SPE) and Liquid-Liquid Extraction Applied for the Analysis of Chemical Warfare AgentsMarc André Althoff0Andreas Bertsch1Manfred Metzulat2Department of Chemistry, Ludwig-Maximilian University (LMU), Butenandtstrasse 5-13 (Haus D), D-81377 Munich, GermanyChemistry Section, Science Department, Chemical Defense, Safety and Environmental Protection School, Mühlenweg 12, D-87527 Sonthofen, GermanyChemistry Section, Science Department, Chemical Defense, Safety and Environmental Protection School, Mühlenweg 12, D-87527 Sonthofen, GermanyExisting autosamplers are frequently applied only for subjecting the samples to the instruments for injection. In our study, we have set up a TriPlusRSH autosampler mounted on a GC-FID-MS/MS system using the new Method Composer and Script Editor software to automatize all necessary sample preparation steps and subsequent injection of samples in the field of chemical disarmament. Those include but are not limited to: liquid-liquid extraction, drying steps, solvent exchange, and µ-SPE. Tedious and error prone off-line steps are eliminated. In particular, when investigating highly toxic substances like chemical warfare agents or anticancer drugs, automation can help to minimize health risks for lab personnel. The setup engaged features brand new prototype equipment, e.g., a centrifuge to assist in phase separation for liquid-liquid extraction. Efficiency and accuracy of the automated methods were carefully evaluated and proven to outperform the respective manual steps after optimization, e.g., the processing time is up to 60% faster and recovery rates are doubled. The developed workflows can easily be adapted to other sample preparation protocols, e.g., determination of octanol/water partition coefficients, and be used amongst different instruments and chromatography data handling systems.https://www.mdpi.com/2297-8739/6/4/49automationsample handlingsample preparationchemical warfare agentspelle
collection DOAJ
language English
format Article
sources DOAJ
author Marc André Althoff
Andreas Bertsch
Manfred Metzulat
spellingShingle Marc André Althoff
Andreas Bertsch
Manfred Metzulat
Automation of µ-SPE (Smart-SPE) and Liquid-Liquid Extraction Applied for the Analysis of Chemical Warfare Agents
Separations
automation
sample handling
sample preparation
chemical warfare agent
spe
lle
author_facet Marc André Althoff
Andreas Bertsch
Manfred Metzulat
author_sort Marc André Althoff
title Automation of µ-SPE (Smart-SPE) and Liquid-Liquid Extraction Applied for the Analysis of Chemical Warfare Agents
title_short Automation of µ-SPE (Smart-SPE) and Liquid-Liquid Extraction Applied for the Analysis of Chemical Warfare Agents
title_full Automation of µ-SPE (Smart-SPE) and Liquid-Liquid Extraction Applied for the Analysis of Chemical Warfare Agents
title_fullStr Automation of µ-SPE (Smart-SPE) and Liquid-Liquid Extraction Applied for the Analysis of Chemical Warfare Agents
title_full_unstemmed Automation of µ-SPE (Smart-SPE) and Liquid-Liquid Extraction Applied for the Analysis of Chemical Warfare Agents
title_sort automation of µ-spe (smart-spe) and liquid-liquid extraction applied for the analysis of chemical warfare agents
publisher MDPI AG
series Separations
issn 2297-8739
publishDate 2019-10-01
description Existing autosamplers are frequently applied only for subjecting the samples to the instruments for injection. In our study, we have set up a TriPlusRSH autosampler mounted on a GC-FID-MS/MS system using the new Method Composer and Script Editor software to automatize all necessary sample preparation steps and subsequent injection of samples in the field of chemical disarmament. Those include but are not limited to: liquid-liquid extraction, drying steps, solvent exchange, and µ-SPE. Tedious and error prone off-line steps are eliminated. In particular, when investigating highly toxic substances like chemical warfare agents or anticancer drugs, automation can help to minimize health risks for lab personnel. The setup engaged features brand new prototype equipment, e.g., a centrifuge to assist in phase separation for liquid-liquid extraction. Efficiency and accuracy of the automated methods were carefully evaluated and proven to outperform the respective manual steps after optimization, e.g., the processing time is up to 60% faster and recovery rates are doubled. The developed workflows can easily be adapted to other sample preparation protocols, e.g., determination of octanol/water partition coefficients, and be used amongst different instruments and chromatography data handling systems.
topic automation
sample handling
sample preparation
chemical warfare agent
spe
lle
url https://www.mdpi.com/2297-8739/6/4/49
work_keys_str_mv AT marcandrealthoff automationofμspesmartspeandliquidliquidextractionappliedfortheanalysisofchemicalwarfareagents
AT andreasbertsch automationofμspesmartspeandliquidliquidextractionappliedfortheanalysisofchemicalwarfareagents
AT manfredmetzulat automationofμspesmartspeandliquidliquidextractionappliedfortheanalysisofchemicalwarfareagents
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