Syringe Accessories for PAL System Headspace Syringe Tool 2.5 ml

ASMS 2025 - From Sample to Species - Automated MALDI-TOF MS Workflows for Streamlined Bacterial Identification

Rapid and accurate bacterial identification is crucial in fields such as clinical diagnostics and food safety, yet traditional methods are often slow. MALDI-TOF MS offers apowerful alternative, but sample preparation is a bottleneck. We propose an automated workflow using a robotic platform to streamline this process. This automated MALDI-TOF MS workflow enhances bacterial identification by reducing manual steps and improvingstandardization across applications.

Automated Workflow for the determintation of Fatty Acid Methyl Esters (FAME)

Posters

Automated Workflow for the determintation of Fatty Acid Methyl Esters (FAME)

This work presents a fully automated workflow using a workstation with robotic tool change (RTC based on a method using sodium methoxide in methanol as reactant .The workflow improves process safety, optimizes throughput and minimizes handling error.

Posters

Smart Sampling Enables a Fully Automated Workflow for Liquid Injection and Headspace GC and GC/MS

Applying the automated workflow described, the analyst’s time to prepare samples and standards, and then optimize conditions was drastically reduced when compared to performing the experiments manually without any reduction in accuracy and reproducibility. At the same time the automated procedure enabled complete traceability of every step.

eBooks

Sample Preparation Compendium

Automated, Green, and Efficient
A Compendium on Micromethods in Analytical Sample Preparation

Discover robust, precise, and reliable analytical methods while following the principles of Green Analytical Chemistry in various fields such as Food & Food Safety, Environmental, Clinical, Life Science, and Chemical.

Automated Sample Prep Workflows: Save money and time

eBooks

Automated Sample Prep Workflows: Save money and time

This compendium on instrumental sample preparation showcases the many proven solutions of automated sample preparation workflows for food, environmental, pharma, life science analysis, and beyond.

Metabolomics Spotlight Talk Gerard Hopfgartner

Webinars

Automated Parallel Derivatization of Metabolites

For metabolite profiling chemical derivatization has been used to improve MS sensitivity and LC retention. However, for multi-analytes quantification, the number of available isotopically labelled internal standards is limited. And, there is no single workflow which can provide large-scale metabolomics coverage in particular for polar metabolites.

Presented by:
Prof. Gerard Hopfgartner, Life Sciences Mass Spectrometry, Department of Inorganic and Analytical Chemistry, University of Geneva

Headspace Analysis: Reproducibility of Syringe Headspace Injections for Aqueous Samples

Application Notes

Headspace Analysis: Reproducibility of Syringe Headspace Injections for Aqueous Samples

This article describes the optimization of residual solvents analysis according USP <467> and Ph.Eur. 2.4.24 using the automated syringe headspace technique on GC-FID and GC-MS systems. The precision of analysis ranged from 4.3 to 7.8 % RSD (GC-FID) for class 2 solvents for all analytes investigated in this study. These values fully comply with USP <467> and Ph. Eur. 2.4.24 requirements.

Trace-level Volatile Organic Pollutants in Water

Application Notes

Trace-level Volatile Organic Pollutants in Water

This application note demonstrates the analysis of tracelevel volatile organic compounds (VOCs) in water using
an automated headspace-trap GC/MS workflow.
• Ultra-low detection limits (ppt) for confident quantitation of VOCs.
• Exceptional linearity and precision for accurate and reliable results.
• High performance exceeding regulatory standards for water quality.

Automated MALDI-TOF MS Workflows for Streamlined Bacterial Identification

Application Notes

Automated MALDI-TOF MS Workflows for Streamlined Bacterial Identification

This application note demonstrates the successful automation of two sample preparation workflows, Formic Acid (FA) and Beads method, for bacterial identification using Matrix-Assisted Laser Desorption/Ionization Time-of-Flight Mass Spectrometry (MALDI-TOF MS).