Environmental Analysis

For laboratories that perform routine process water, drinking water and wastewater analysis, Thermo Scientific™ Gallery™ discrete analyzer systems provide increased throughput while lowering the cost per sample for environmental analysis. This...

Read how the Erie County Public Health Laboratory addressed the challenges associated with quantitation of target disinfection by-products DBPs in drinking water per U.S. EPA Method 557 by adopting IC-MS/MS.

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.

This study demonstrated the determination of trace borate in high-purity waters using ion-exclusion chromatography and suppressed conductivity detection. This method offers an integrated solution of trace level boron as borate.

This application note demonstrates an automated method to determine a range of perfluorinated alkyl substances (PFAS) by combustion IC within environmentally relevant matrices and compare results with existing highly specific methods based on...

Common methods for the analysis of oxyanions require separation with ion chromatography using suppressed conductivity detection. Often to achieve the required detection limits, in some cases for bromate post column derivatization is required using...

Separation Science, in collaboration with Agilent, offers a selection of application notes relevant for environmental analysis using GC or GC/MS. Discover an effective method for the analysis of semivolatile organic compounds or find out how to...

This webinar teaches you how advances in GC/MS and Purge and Trap technology have improved the determination and analysis of VOCs.

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. 

This application note provides a comparison between HRAM Orbitrap technology and MS/MS for the analysis of polyfluoroalkyl substances (PFASs) by EPA Method 537.

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...

Economic efficiency is becoming an ever more important aspect of everyday life, with the efficiency of industrial plants and equipment constituting one of the basic preconditions for sustainable economic operations. One avoidable problem that can...

Volatile Organic Compounds (VOCs) can occur from natural sources such as plant scents. However, a large amount of VOCs do have an anthropogenic origin, because they are released from products in daily use or emitted during the manufacturing of such...

UCT has produced an application note outlining a solid-phase extraction (SPE) procedure using C18 SPE universal cartridges to extract 16 PAHs in water by EPA method 8310. This is a performance-based method allowing for modifications with the QC...

Separation Science, in collaboration with its sponsors Agilent, Markes International and PerkinElmer, has developed an 'Advances in Environmental Analysis eSeminar'. This unique on-demand event brings together some of the leading exponents in the...