PAL3-HeatexStirrer
PAL3-Heatex-Ins-2mL
PAL3-Heatex-Ins-10mL
PAL3-SPME-ArrowCond
Vial-10-ND18-CG-100
Vial-10-ND18-AG-100
Vial-20-ND18-AG-100
Vial-20-ND18-CG-100
Vial-20-DC20-CG-100
Vial-20-DC20-AG-100
Vial-1.5-ND9-CG-100
Vial-1.5-ND9-AG-100
Cap-ND18-St-SP15-100
Cap-ND18-StC-SP20-100
Cap-ND9-St-SP10-100
Cap-ND9-St-SP10Sb-100
SFIB-A-85/10-P1
SFIB-A-85/10-P3
SFIB-A-85/10-P5
SFIB-C-WR-95/10-P1
SFIB-C-WR-95/10-P3
SFIB-C-WR-95/10-P5
SFIB-DVB-65/10-P1
SFIB-DVB-65/10-P3
SFIB-DVB-65/10-P5
SFIB-DVB/C-WR-80/10-P1
SFIB-DVB/C-WR-80/10-P3
SFIB-DVB/C-WR-80/10-P5
SFIB-P-100/10-P1
SFIB-P-100/10-P3
SFIB-P-100/10-P5
SFIB-P-30/10-P1
SFIB-P-30/10-P3
SFIB-P-30/10-P5
SFIB-P-7/10-P1
SFIB-P-7/10-P3
SFIB-P-7/10-P5
SFIB-SEL5-S1
SFIB-SEL5-S2
SARR11-A-100/20-P1
SARR11-A-100/20-P3
SARR11-A-100/20-P5
SARR11-C-WR-120/20-P1
SARR11-C-WR-120/20-P3
SARR11-C-WR-120/20-P5
SARR11-DVB-120/20-P1
SARR11-DVB-120/20-P3
SARR11-DVB-120/20-P5
SARR11-DVB/CWR120/20-P1
SARR11-DVB/CWR120/20-P3
SARR11-DVB/CWR120/20-P5
SARR11-P-100/20-P1
SARR11-P-100/20-P3
SARR11-P-100/20-P5
SARR1115-SEL5-S2
SARR15-C-WR-120/20-P1
SARR15-C-WR-120/20-P3
SARR15-C-WR-120/20-P5
SARR15-DVB-120/20-P1
SARR15-DVB-120/20-P3
SARR15-DVB-120/20-P5
SARR15-DVB/CWR120/20-P1
SARR15-DVB/CWR120/20-P3
SARR15-DVB/CWR120/20-P5
SARR15-P-100/20-P1
SARR15-P-100/20-P3
SARR15-P-100/20-P5
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).
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).
ASMS 2025 - Fully automated implementation of EPA Method 1633 for LC-MS/MS analysis of PFAS in environmental samples using a customized robotic autosampler
ASMS 2025 - Fully Automated Workflow for Volatile PFAS Analysis in Food Contact Materials Using GC-Triple Quadrupole
Gas Chromatography coupled with Triple Quadrupole Mass Spectrometry (GC/TQ) offers a robust and sensitive method for
detecting volatile PFAS. However, manual sample preparation could pose a bottleneck, impacting lab productivity. This study presents a robust and fully automated method using the PAL3 platform with GC/TQ for quantifying more than 30 volatile PFAS in FCMs, such as paper coffee cups. The automation approach minimizes human error, improving reliability
and reproducibility for routine analysis and safety assessments of PFAS in FCMs.
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.
Micromethods - Modern SPME Geometries - A Focus on Volatile PFAS Analysis
If you're looking for ways to improve your analysis of complex matrices or trace contaminants, these expert-led sessions are for you
Join us for a deep dive into recent research comparing SPME Fiber and SPME Arrow for ultra-trace volatile PFAS. Learn directly from the author which geometry and extraction mode provides the best performance.
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:
Micromethods - Automated µSPE Cleanup for High-Throughput QuEChERS Analysis
If you're looking for ways to improve your analysis of complex matrices or trace contaminants, these expert-led sessions are for you
Tired of manual uSPE? See how a fully automated, miniaturized µSPE workflow provides a superior cleanup for tough matrices like fats, oils, and spices, helping you reduce instrument maintenance and improve reproducibility.
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.
