Generating environmental data for organochlorine pesticides in various matrices can be time-consuming for lab-oratories and engineering firms. To keep a gas chromatograph/electron cap-ture detector (GC/ECD) system operat-ing within control limits, precious analytical time must be spent on tasks such as recalibration, reinjection of samples, detector cleaning, and reinte-gration of chromatographic peaks. These tasks take time away from run-ning billable samples and adversely affect laboratory throughput. The Agilent 6890 Series Micro-ECD used in this study shows improved per-formance in several key areas
Gas chromatography with electron capture detector (GC-ECD) has been validated for simultaneous deter...
Trace-level semivolatile organics analyses using methods such as USEPA Method 8270 are important too...
In this work the combination of high-speed narrow-bore capillary GC with electron capture detection ...
A study of the variability of the final determination of chlorinated biphenyls (CBs) and organochlor...
(EPA) 8081 uses gas chromatography–electron capture detection (GC-ECD) to quantify organochlorine pe...
Analysis time is often a limiting factor in sample turnaround for a laboratory. In order to be compe...
The pesticides 1,2-ethylene dibromide (EDB) and 1,2-dibromo-3-chloropropane (DMCP) were analyzed by ...
The use of GC/MS techniques is crucial to modern environmental trace analysis. However, due to the s...
A system is presented that allows direct introduction of large vols. of CH2Cl2 in capillary gas chro...
Agilent Technologies ’ new, fast GC/MSD method can significantly speed up the screening of pesticide...
Environmental chemists have been challenged for over 30 years to analyse complex mixtures of halogen...
1.1 This SOP is applicable to the analysis of GFF filter and XAD-2 resin extracts prepared according...
Several methods are used to generate a limit of detection for organic pollutants measured by gas chr...
Chlorinated ethenes are among the most common environmental contaminants and are known or suspected ...
Contract Laboratory Program (CLP) pesticide analysis is demonstrated on high-efficiency GC columns (...
Gas chromatography with electron capture detector (GC-ECD) has been validated for simultaneous deter...
Trace-level semivolatile organics analyses using methods such as USEPA Method 8270 are important too...
In this work the combination of high-speed narrow-bore capillary GC with electron capture detection ...
A study of the variability of the final determination of chlorinated biphenyls (CBs) and organochlor...
(EPA) 8081 uses gas chromatography–electron capture detection (GC-ECD) to quantify organochlorine pe...
Analysis time is often a limiting factor in sample turnaround for a laboratory. In order to be compe...
The pesticides 1,2-ethylene dibromide (EDB) and 1,2-dibromo-3-chloropropane (DMCP) were analyzed by ...
The use of GC/MS techniques is crucial to modern environmental trace analysis. However, due to the s...
A system is presented that allows direct introduction of large vols. of CH2Cl2 in capillary gas chro...
Agilent Technologies ’ new, fast GC/MSD method can significantly speed up the screening of pesticide...
Environmental chemists have been challenged for over 30 years to analyse complex mixtures of halogen...
1.1 This SOP is applicable to the analysis of GFF filter and XAD-2 resin extracts prepared according...
Several methods are used to generate a limit of detection for organic pollutants measured by gas chr...
Chlorinated ethenes are among the most common environmental contaminants and are known or suspected ...
Contract Laboratory Program (CLP) pesticide analysis is demonstrated on high-efficiency GC columns (...
Gas chromatography with electron capture detector (GC-ECD) has been validated for simultaneous deter...
Trace-level semivolatile organics analyses using methods such as USEPA Method 8270 are important too...
In this work the combination of high-speed narrow-bore capillary GC with electron capture detection ...
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