Thermo Scientific™ ISQ™ 7610 Single Quadrupole GC-MS System
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Excellent device to have in my lab. Can’t perform good experiment without this device
Analyse metabolites in Microbial production samples. It helps to identify the components study in th
I achieve high and quality full results in my thesis work experiment. The results that i achieve was reproducible. It was very easy to use with proper instructions. This equipment is value for money for any researcher that works in wet laboratory. Everything is quality full for this device. I think no compromises was made during the manufacture.
Review Date: 31 Jul 2023 | Thermo Fisher Scientific
Developed to enhance user experience in their workflows, the ISQ 7610 GC-MS system is streamlined to ensure great data consistency over time while offering automated instrument control tools.
A practical guide to navigating water testing demands
Environmental and water quality testing labs face mounting challenges, from tighter regulations to faster turnaround demands and rising operational costs. Staying compliant while delivering accurate, high-throughput water testing has never been more critical, or more complex.
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Key topics explored:
- Case studies in lab transformation
- Analysis of semi-volatile compounds in water
- Fast determination of anions in municipal drinking water
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- Featured products and user reviews
Looking for even more expert guidance?
Visit the Water Testing Workflow Hub for videos, product demos, and in-depth interviews with leading scientists improving public health through advanced water testing.
Implementation of the US EPA Method 524.2 for the analysis of VOCs in drinking water
Analytical testing labs play a crucial role in monitoring surface, ground, and drinking water for volatile organic compounds (VOCs). Common by-products in the processing of household and industrial products, VOCs can contaminate water sources, potentially harming the environment and public health. Discover how the Teledyne LABS Tekmar Lumin Purge and Trap (P&T) concentrator paired with the AQUATek LVA autosampler, along with Thermo Scientific™ ISQ™ 7610 MS, and TRACE™ 1610 GC system effectively adhere to U.S. EPA Method 524.2 for analyzing volatile organic compounds (VOCs) in drinking water. This advanced setup ensures precise quantitation with superior method linearity, detection limits, and accuracy, meeting stringent regulatory requirements for environmental testing labs.
Optimize VOC analysis with reduced helium consumption using HeSaver-H2 Safer technology in accordance with EPA Method 8260D
Thermo Fisher Scientific details how a TRACE 1610 gas chromatograph equipped with a Thermo Scientific™ iConnect™ split/splitless injector, upgraded to work in HeSaver-H2 Safer mode, was coupled to the ISQ 7610 single quadrupole mass spectrometer and a Teledyne Tekmar Atomx XYZ P&T and used to analyze water and soil samples according to EPA Method 8260D. Learn how high performance and accuracy in volatile organic compound (VOC) detection was achieved while adhering to environmental regulations, ensuring safety and compliance without compromising analytical quality.
Trace analysis of volatile organic compounds in wastewater according to US EPA Method 624.1
Thermo Fisher Scientific demonstrates an analytical method that meets the requirements outlined in US EPA Method 624.1 for the quantitation of volatile organic compounds (VOCs) in wastewater, using the Teledyne LABS Tekmar Lumin Purge and Trap (P&T) concentrator paired with the AQUATek LVA autosampler system along with a Thermo Scientific™ ISQ™ 7610 mass spectrometry (MS) system coupled with a Thermo Scientific™ TRACE™ 1610 gas chromatograph (GC) and Thermo Scientific™ Chromeleon™ Chromatography Data System (CDS). Learn about method linearity, detection limits, precision, and calibration checks essential for accurate VOC detection and quantitation in wastewater.
Maximize sensitivity and accuracy in VOC analysis with ITEX-DHS and cryogen-free refocusing technology
Explore how ITEX-DHS (In-Tube Extraction-Dynamic Headspace) coupled with cryogen-free refocusing enhances the analysis of volatile (VOC) and very volatile organic compounds (VVOCs). This advanced technology achieves lower detection limits for VOCs in water, improving sensitivity and accuracy. Ideal for detecting contaminants like benzene, toluene, and chlorinated compounds, ITEX-DHS provides critical insights into environmental and health risks associated with VOCs.
Improvements for the analysis of VVOCs using static and dynamic headspace
In environmental laboratories, analyses of volatile organic compounds (VOCs) and very volatile organic compounds (VVOCs) in water are performed on a routine basis. Dr. Daniela Cavagnino, Product Marketing Manager GC & Autosampler, Thermo Fisher Scientific, discusses these analyses, focusing on headspace sampling techniques. Explore a simple approach to enrich headspace concentration to achieve trace level sensitivity.
VOC analysis with the Thermo Scientific™ ISQ™ 7610 Single Quadrupole GC-MS System
Amy Nutter, VOC Applications Chemist at Teledyne Teckmar, delves into purge trap analysis of U.S. EPA 524.2 and Chinese MEE HJ 605 methods. Nutter explores the theory, method requirements, instrument features, and results for VOC analysis in water and soil samples. Nutter highlights the efficiency and time-saving benefits of the Thermo Scientific™ ISQ™ 7610 Single Quadrupole GC-MS System.
