Environmental Analysis

Optimized Polycyclic Aromatic Hydrocarbon (PAH) Analysis by GC-MS

Some polycyclic aromatic hydrocarbons are carcinogenic so trace-level monitoring of air, water, and soil samples is essential for assessing exposure. This application note shows how PAH analysis by GC-MS using an Rxi-SVOCms column provides effective...

New Methods and Applications for Environmental Analysis

Separation Science, in collaboration with Restek, offers an updated eBook for environmental analysis featuring new applications and methods to help you achieve faster analysis times and increase sample throughput.

Improve your PFAS analysis with the FM4 Air Sampler

Air Sampler FM4 is the first innovative portable sampler capable of simultaneously collecting and analysing particulate and gaseous PFAS in the air. FM4 consists of a three-stage cascade impactor, polyurethane foam, and activated carbon fiber disk...

Methods and Applications for Environmental Analysis

Separation Science, in collaboration with Restek, offers its latest 'Environmental Analysis' eBook featuring applications and methods to help you achieve faster analysis times and increase sample throughput.

PAMS Analysis during COVID-19 Lockdowns in New York City

This on-demand webinar discusses PAMS (Photochemical Assessment Monitoring Stations) analysis conducted during Covid-19 lockdowns and how excellent data stability is achieved over extended sampling periods.

Discover Which Trace Elemental Instruments are Best for your Analysis

This on-demand discussion forum enables laboratory professionals to gain knowledge on the choices of instrument available and which is most recommended for specific applications.

Mass Spectrometry Analysis of Chemicals of Environmental Concern

Separation Science, in collaboration with Shimadzu, offers a series of application notes introducing analysis methods for substances of concern such as PFAS, microplastics, and metallic elements. Click on the button below to download your personal...

The Essentials of Air Sampling from Strategy to Solutions

If you're looking for a course that will guide you, the user, from the strategy decision to the sample media selection process using a workflow approach for air monitoring methods, this on-demand webinar will meet your needs. For further details and...

Analysis of PFAS in drinking water

Do you need some help with PFAS testing? If so, this on-demand webinar provides solutions in line with the updated method, EPA 533 and explains what measures can be taken to mitigate external contamination sources.

Air sampling techniques for environmental contaminants

This webinar discusses various air sampling techniques, both active and passive, and introduces some innovative time-saving air sampling devices.

Aerosol Analytics

In this interview Dr Ralf Löscher, Vice President of LECO Europe, talks to Thomas Gröger and Dr. Jürgen Schnelle-Kreis from the Helmholtz Zentrum München – the German Research Center for Environmental Health to gain some background information on...

The Power of GC-TOF-MS for Environmental Applications

Discover how GC-TOF-MS and GC×GC-TOF-MS technologies can dramatically enhance your applications for environmental analysis and increase data quality and sample throughput. 

GC/MS Analysis of Aromatics in Gasoline using ASTM D5769

Would you like to find out more about the D5769 GC/MS method for total aromatics analysis in gasoline and remain in compliance with EPA regulations? This on-demand webinar offers best practices for setting up, optimizing, and running this method.

How to perform better GC analyses of petrochemicals, PAHs and residual solvents

Separation Science, in collaboration with Agilent, is offering a selection of application notes demonstrating the versatility of its 8890 gas chromatography (GC) system that enables you to work smarter with autonomous monitoring, remote...

Routine monitoring of airborne VOCs

This study from SepSolve Inc. demonstrates the suitability of a TD–GC×GC system with dual TOF MS/FID detection for the routine, automated analysis of volatile organic compounds (VOCs) in complex air samples. 

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