Product Details

PAL System Agitator top cover

PAL3-AgiTopCover

PAL System Agitator top cover

Related Products

PAL3-Agitator

PAL3-Agitator

PAL System Agitator module
PAL3-AgiTopSPME

PAL3-AgiTopSPME

PAL System Agitator top cover for SPME

Related Content

PFAS-free Upgrade Kits
Brochures

PFAS-free Upgrade Kits

Equip your PAL Systems for PFAS Analysis with PFAS-free Upgrade Kits and minimize PFAS Background.

New Volumetric Pump Enhances LC/MS Injection Efficiency
Brochures

New Volumetric Pump Enhances LC/MS Injection Efficiency

Speed up, Carryover down

Advancing PFAS Analysis - Robotic Automation and Streamlined LC/MS Workflows
Webinars

Advancing PFAS Analysis - Robotic Automation and Streamlined LC/MS Workflows

To support the scientific community and advance PFAS analysis we are proud to offer a webinar on this topic.

Key topics:

  • PFAS Fundamentals: Learn about the chemistry and significance of PFAS compounds.
  • Sample Preparation Challenges: Understand current hurdles, regulations and best practices in PFAS extraction and purification.
  • Automated LC/MS Workflows: Get an overview on automated workflows and see how PAL System integrates with LC/MS to optimize sample preparation and injection.
  • Deep Dive: Explore online SPE for PFAS analysis.
Automated Sample Preperation for LC/MS and GC/MS - Solutions for Food and Environmental Analysis
Webinars

Automated Sample Preperation for LC/MS and GC/MS - Solutions for Food and Environmental Analysis

In this presentation we want to discuss an important development and a demand from analytical laboratories about the standardization and the automation of sample preparation procedures for food safety, environmental, the forensic or pharmaceutical analysis.

Presented by:
Hans-Joachim Huebschmann, PhD

Streamlining Metabolomic Analyses with Automated Derivatization and Injection Workflows
Application Notes

Streamlining Metabolomic Analyses with Automated Derivatization and Injection Workflows

Metabolites, the dynamic molecules reflecting cellular processes, hold the potential for understanding health, disease, and
biological systems. To unlock this potential, metabolomic analyses require precise and reliable analytical methods. This App Note
explores the workflow of the Metabolomics Core Technology Platform (MCTP), a core facility of Heidelberg University (Germany),
discussing their semi-automated analysis for untargeted metabolomics and ¹³C tracing studies via gas chromatography-mass
spectrometry (GC/MS).

Automated Determination of Fatty  Acid Methyl Esters using a Method  developed by PAL Method Composer
Application Notes

Automated Determination of Fatty Acid Methyl Esters using a Method developed by PAL Method Composer

An efficient method for the generation and GC-analysis of FAME was generated using PAL Method Composer ver. 1.4. PAL Method Composer allows to rapidly generate methods by simple drag & drop operations.

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. 

Fully Automated Sample Preparation and Untargeted 2D-LC-Mass Spectrometry Workflow for Glycerophospholipid Analysis in Plasma
Posters

Fully Automated Sample Preparation and Untargeted 2D-LC-Mass Spectrometry Workflow for Glycerophospholipid Analysis in Plasma

We developed an integrated workflow combining HILIC-LC-SWATH-MS for quantitative analysis and 2D-LC HILIC x RPLC DDA-EAD/MRMHR-EAD for qualitative characterization of complex lipidomes,particularly glycerophospholipids.

Untargeted 2DxLC-Mass Spectrometry using SWATH-DIA-Based Workflow for the Characterization of Lipid Profiles in Plasma Samples
Posters

Untargeted 2DxLC-Mass Spectrometry using SWATH-DIA-Based Workflow for the Characterization of Lipid Profiles in Plasma Samples

The use of lipidomic analyses based on LC-mass spectrometry has become widespread due to its sensitivity and specificity which provides a broader picture of lipid profiles in biofluids. In this work, we combined an automated sample extraction and a two-dimensional liquid chromatography (2DxLC) system with HILIC-based class separation followed by an orthogonal reverse-phase chromatography with an untargeted SWATH-DIA workflow to accurately annotate phosphatidylcholines (PC), lysophosphatidylcholine (LPC) and etherphosphatidylcholines (PC O-) in human plasma samples.

PAL Ingenious News January 2022
PAL Ingenious News

PAL Ingenious News January 2022

  • Metabolite Profiling by Automated Methoximation and Silylation
  • Nitrosamines in Pharmaceuticals
  • New Version of PAL Method Composer
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