Environment - Overview of GC and GCMS Application in 2020

Su, 27.12.2020
| Original article from: LabRulezGCMS Library/Environment 2020
Overview of applications, presentations, technical articles, posters or practical manuals using GC and GCMS systems in the field of environmental analysis in 2020.
Pixabay/PIRO4D: Environment - Overview of GC and GCMS Application in 2020

Pixabay/PIRO4D: Environment - Overview of GC and GCMS Application in 2020

See the latest trends in analyzes associated with the analysis of environmental samples using gas chromatographs (GC), headspace autosamplers (HS), thermal desorption (TD), Purge & Trap (P&T), GC/MS, GC/QQQ or a combination of gas chromatography with high resolution mass spectrometers (HRMS).

The latest technologies push the boundaries of detection limits in all application areas - from the analysis of SCCPs, through the analysis of polyaromatic hydrocarbons (PAH) in various matrices or volatile substances in water to the analysis of microplastics using thermal desorption (TD).

Thanks to the possibilities of our unique database with advanced search, you are able to search and filter in a second according to the exact configuration of the system, manufacturer or industries.

You can find all the documents and open them directly or download them in the LabRulez library.

GC/HRMS (3)

  • Analysis of Short Chain Chlorinated Paraffins (SCCPs) by GC -Q/ TOF using Complimentary and Novel Ionization | 2020 | Agilent Technologies

  • Solution for Environment & Agriculture Analysis | 2020 | LECO

  • The joy of discovery Your curiosity, our geosciences portfolio | 2020 | Thermo Fischer Scientific

GC/QQQ (10)

  • The joy of discovery Your curiosity, our geosciences portfolio | 2020 | Thermo Fischer Scientific

  • Routine Quantitation of PAHs in Sediments Using Electron Ionization GC-MS/MS | 2020 | Waters

  • Automated MRM Method Development for US EPA Method 8270 with the Agilent MassHunter Optimizer for GC/TQ | 2020 | Agilent Technologies

  • Optimized PAH Analysis Using Triple Quadrupole GC/MS with Hydrogen Carrier | 2020 | Agilent Technologies

  • Nitrosamines Analysis in Water - Using Triple Quadrupole GC/MS/MS: Consumables workflow ordering guide | 2020 | Agilent Technologies

  • Dioxins S3 - Smart Solution Systems | 2020 | Shimadzu

  • Detection of hormones (E1, E2, EE2) according to the requirements of the EU Water Framework Directive using an online-SPE-HPLC-MS/MS | 2020 | Shimadzu

  • Polycyclic Aromatic Hydrocarbons Analysis in Environmental Samples - Using single quadrupole GC/MS and triple quadrupole GC/MS/MS: Consumables workflow ordering guide | 2020 | Agilent Technologies

  • Agilent Triple Quadrupole GC/MS - Application Compendium | 2020 | Agilent Technologies

  • Analytical and Measuring Instruments for Microplastics | 2020 | Shimadzu

GC/SQ (25)

  • EPA 8270E with Pulsed Split Injection and Retention Time Locking on an 8890 GC with a 5977 Series MSD | 2020 | Agilent Technologies

  • The Evaluation of a New GC-MS instrument and Novel BFB tune for analysis of EPA Method 524.2. | 2020 | Shimadzu

  • Occurrence of Volatile Organic Compounds in Tap Water: Demonstration of Performance of a New GCMS and a Novel BFB Tune | 2020 | Shimadzu

  • The joy of discovery Your curiosity, our geosciences portfolio | 2020 | Thermo Fischer Scientific

  • US EPA Method 524.4 using the Teledyne Tekmar Atomx XYZ and Thermo Scientific™ ISQ™ 7000 Mass Spectrometry (MS) System Coupled with a Thermo Scientific™ TRACE™ 1310 Gas Chromatograph (GC) | 2020 | Tekmar Teledyne

  • Optimal Separation of PAH Compounds including Chrysene & Triphenylene using Zebron™ ZB-PAH-SeleCT GC column | 2020 | Phenomenex

  • Fast Analysis of Regulated PAHs by GC-MS using Zebron™ ZB-PAH-EU and Zebron ZB-PAH-SeleCT | 2020 | Phenomenex

  • Volatile Organic Compounds in Waters - Agilent GC/MS Workflow Consumables Quick Reference Guide | 2020 | Agilent Technologies

  • Detect Every Peak and Minimize Degradative Buildup in Your GC Flow Path - Agilent Inert Flow Path solutions | 2020 | Agilent Technologies

  • Routine analysis of purgeable organic compounds in drinking water with ISQ 7000 GC-MS | 2020 | Thermo Fischer Scientific

  • Determination of 1,4-Dioxane in Water | 2020 | SCION Instruments

  • US EPA Method 624 using the Teledyne Tekmar Atomx XYZ and Thermo Scientific™ ISQ™ 7000 Mass Spectrometry (MS) System Coupled with a Thermo Scientific™ TRACE™ 1310 Gas Chromatograph (GC) | 2020 | Tekmar Teledyne

  • Quantification of Microplastics in Environmental Samples Using Pyrolysis and GC/MSD | 2020 | Agilent Technologies

  • Analysis of Mixed Polymer Sample as Microplastics using Pyrolysis GC/MS | 2020 | Shimadzu

  • Comparison of Fritted and Wool Liners for Analysis of Semivolatile Organic Compounds by Gas Chromatography/Mass Spectrometry | 2020 | Agilent Technologies

  • Analysis of VOCs in automotive trim components using TD-GC-MS | 2020 | Thermo Fischer Scientific

  • New Approach to Analysis of Volatile Gases Formed by Intestinal Microbiota Using GCMS™ and GC-SCD | 2020 | Shimadzu

  • Quantitation of 3,3’-Dichloro-4,4’- Diaminodiphenylmethane (MOCA) in the Work Environment by GC/MS | 2020 | Shimadzu

  • Analysis of VOCs according to EPA Method 8260 | 2020 | Thermo Fischer Scientific

  • A rapid method for the analysis of air toxics based on US EPA TO-15 | 2020 | **Thermo Fischer Scientific **

  • Analysis of VOCs and Petroleum Hydrocarbons (C6 to C9) in Soil and Sediment with a P&T-8890 GC/FID/5977 MSD Systém | 2020 | Agilent Technologies

  • Polycyclic Aromatic Hydrocarbons Analysis in Environmental Samples - Using single quadrupole GC/MS and triple quadrupole GC/MS/MS: Consumables workflow ordering guide | 2020 | Agilent Technologies

  • Analysis of US EPA TO-15 for Ambient Air Monitoring Using Cryogen- Free Thermal Desorption and Gas Chromatography Coupled to a Single Quadrupole Mass Spectrometer (GC/MSD) | 2020 | Agilent Technologies

  • Accelerated Determination of Microplastics in Environmental Samples Using Thermal Extraction Desorption-Gas Chromatography/Mass Spectrometry (TED-GC/MS) | 2020 | Agilent Technologies

  • Indoor Air Monitoring of Volatile Organic Compounds by Thermal Desorption – GCMS | 2020 | Shimadzu

GC (11)

  • Using a Barrier Ion Discharge Detector for Trace Water Analysis: An Alternative to the Karl Fischer Titration Technique | 2020 | Shimadzu

  • The joy of discovery Your curiosity, our geosciences portfolio | 2020 | Thermo Fischer Scientific

  • Evaluation of Capillary Columns for the Analysis of Volatile Organic Compounds Using Computer Modeling Software | 2020 | Restek

  • Quick Reference Guide - Semi-Volatile Organic Compounds (SVOC) in Water | 2020 | Agilent Technologies

  • Detect Every Peak and Minimize Degradative Buildup in Your GC Flow Path - Agilent Inert Flow Path solutions | 2020 | Agilent Technologies

  • Endrin/DDT Stability for Fritted and Wool Liners | 2020 | Agilent Technologies

  • New Approach to Analysis of Volatile Gases Formed by Intestinal Microbiota Using GCMS™ and GC-SCD | 2020 | Shimadzu

  • Analysis of halogenated disinfection byproducts and chlorinated solvents in drinking water by GC-dual ECD | 2020 | Thermo Fischer Scientific

  • Cryogen-free analysis of VOCs in car exhaust | 2020 | Thermo Fischer Scientific

  • Quantitation of Hydrogen and Methane Dissolved in Hexanes, Toluene and Water | 2020 |** Shimadzu**

  • Analysis of VOCs and Petroleum Hydrocarbons (C6 to C9) in Soil and Sediment with a P&T-8890 GC/FID/5977 MSD Systém | 2020 | Agilent Technologies

Purge and Trap (10)

  • The Evaluation of a New GC-MS instrument and Novel BFB tune for analysis of EPA Method 524.2. | 2020 | Shimadzu

  • Occurrence of Volatile Organic Compounds in Tap Water: Demonstration of Performance of a New GCMS and a Novel BFB Tune | 2020 | Shimadzu

  • US EPA Method 524.4 using the Teledyne Tekmar Atomx XYZ and Thermo Scientific™ ISQ™ 7000 Mass Spectrometry (MS) System Coupled with a Thermo Scientific™ TRACE™ 1310 Gas Chromatograph (GC) | 2020 | Tekmar Teledyne

  • Volatile Organic Compounds in Waters - Agilent GC/MS Workflow Consumables Quick Reference Guide | 2020 | Agilent Technologies

  • Detect Every Peak and Minimize Degradative Buildup in Your GC Flow Path - Agilent Inert Flow Path solutions | 2020 | Agilent Technologies

  • Routine analysis of purgeable organic compounds in drinking water with ISQ 7000 GC-MS | 2020 | Thermo Fischer Scientific

  • Determination of 1,4-Dioxane in Water | 2020 | SCION Instruments

  • US EPA Method 624 using the Teledyne Tekmar Atomx XYZ and Thermo Scientific™ ISQ™ 7000 Mass Spectrometry (MS) System Coupled with a Thermo Scientific™ TRACE™ 1310 Gas Chromatograph (GC) | 2020 | Tekmar Teledyne

  • Analysis of VOCs according to EPA Method 8260 | 2020 | Thermo Fischer Scientific

  • Analysis of VOCs and Petroleum Hydrocarbons (C6 to C9) in Soil and Sediment with a P&T-8890 GC/FID/5977 MSD Systém | 2020 | Agilent Technologies

Thermal desorption (10)

  • Sorbent Pen Chart | 2020 | ENTECH

  • Air Monitoring Sorbent Pens™ (Pat. Pend.) For Environmental & IH Applications | 2020 | ENTECH

  • Flow Professor™ Calibration System - Solutions for Time Integrated Canister Sampling | 2020 |** ENTECH**

  • Analysis of VOCs in automotive trim components using TD-GC-MS | 2020 | Thermo Fischer Scientific

  • Thermal Desorption Tubes with Unique Barcodes | 2020 | Merck

  • A rapid method for the analysis of air toxics based on US EPA TO-15 | 2020 | Thermo Fischer Scientific

  • Cryogen-free analysis of VOCs in car exhaust | 2020 | Thermo Fischer Scientific

  • Analysis of US EPA TO-15 for Ambient Air Monitoring Using Cryogen- Free Thermal Desorption and Gas Chromatography Coupled to a Single Quadrupole Mass Spectrometer (GC/MSD) | 2020 | Agilent Technologies

  • Accelerated Determination of Microplastics in Environmental Samples Using Thermal Extraction Desorption-Gas Chromatography/Mass Spectrometry (TED-GC/MS) | 2020 | Agilent Technologies

  • Indoor Air Monitoring of Volatile Organic Compounds by Thermal Desorption – GCMS | 2020 | Shimadzu

HeadSpace (3)

  • Volatile Organic Compounds in Waters - Agilent GC/MS Workflow Consumables Quick Reference Guide | 2020 | Agilent Technologies

  • AUTOMATED SIFT-MS: STATIC HEADSPACE ANALYSIS | 2020 | Anatune

  • New Approach to Analysis of Volatile Gases Formed by Intestinal Microbiota Using GCMS™ and GC-SCD | 2020 | Shimadzu

LabRulez
 

Related content

Characterization of Extractables from Common Pharmaceutical Packaging Materials with GCxGC and HR-TOFMS

Instrumentation
GCxGC, GC/MSD, GC/HRMS, GC/TOF
Manufacturer
LECO
Industries
Pharma & Biopharma, Materials Testing

Agilent AI Peak Integration for MassHunter

Instrumentation
GC/MSD, Software
Manufacturer
Agilent Technologies
Industries
Materials Testing

Gas Chromatograph Brevis GC-2050

Instrumentation
GC
Manufacturer
Shimadzu
Industries
---

Monitoring of Adhesive Curing using Time Course Measurement with FTIR Spectroscopy

Instrumentation
FTIR Spectroscopy
Manufacturer
Shimadzu
Industries
Materials Testing

Advancing Research of Lithium-Ion Batteries Using the Agilent Cary 630 FTIR Spectrometer

Instrumentation
FTIR Spectroscopy
Manufacturer
Agilent Technologies
Industries
Materials Testing
 

Related articles


Article | Various

GC & GC/MS Helium to Hydrogen Conversion Quick Reference Guide

This quick reference guide is set out to provide information on using and converting a instrument or a whole laboratory from helium to hydrogen.
 

Related articles


Article | Various

GC & GC/MS Helium to Hydrogen Conversion Quick Reference Guide

This quick reference guide is set out to provide information on using and converting a instrument or a whole laboratory from helium to hydrogen.
 

Related articles


Article | Various

GC & GC/MS Helium to Hydrogen Conversion Quick Reference Guide

This quick reference guide is set out to provide information on using and converting a instrument or a whole laboratory from helium to hydrogen.
 

Related articles


Article | Various

GC & GC/MS Helium to Hydrogen Conversion Quick Reference Guide

This quick reference guide is set out to provide information on using and converting a instrument or a whole laboratory from helium to hydrogen.