Životní prostředí - přehled aplikačního použití GC a GCMS systémů 2020

Podívejte se na nejnovější trendy v oblasti plynové chromatografie a hmotnostní spektrometrie spojené s analýzou vzorků životního prostředí s využitím plynových chromatografů (GC), headspace autosamplerů (HS), termální desorpce (TD), Purge&Trap (P&T), GC/MS, GC/QQQ nebo spojenení plynové chromatografie s hmotnostními spektrometry s vysokým rozlišením (HRMS).

Nejnovější technologie posouvají hranice detekčních limitů ve všech aplikačních oblastech - od analýzy SCCPs, přes analýzy polyaromatických uhlovodíků (PAH) v různých matricích nebo těkavých látek ve vodách až po analýzy mikroplastů pomocí termální desorpce (TD).

Díky možnostem naší unikátní databáze s pokročilým vyhledáváním jste schopni ve vteřině vyhledávat a filtrovat dle přesné konfigurace systému, výrobce nebo zaměření.

Všechny dokumenty najdete a můžete přimo otevřit nebo stáhnout v knihovně LabRulez.

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 (11)

• 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

• VITATOX 2020: VÝSKYT ORGANICKÝCH MIKROPOLUTANTŮ (FTALÁTŮ, PAH, RETARDÁTORŮ HOŘENÍ, PESTICIDŮ) VE VZORCÍCH PRACHŮ | 2020 | Ostatní

• 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 (26)

• 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

• VITATOX 2020: VÝSKYT ORGANICKÝCH MIKROPOLUTANTŮ (FTALÁTŮ, PAH, RETARDÁTORŮ HOŘENÍ, PESTICIDŮ) VE VZORCÍCH PRACHŮ | 2020 | Ostatní

• 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 (12)

• 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

• ROZLÍŠENIE IZOMÉRNYCH ZLÚČENÍN POMOCOU VÁKUOVÉHO UV DETEKTORA | 2020 | Chemické listy

• 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

Termální desorpce (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