Incorporates PPC for enhanced ease-of-use, functionality and performance in an automated sample-tube handling system for unattended analysis of up to 50 samples. Concurrent desorption of the next sample while the current sample is undergoing GC analysis optimizes productivity.
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Allows the ability to condition tubes during chromatography to minimize downtime and enhance productivity and also includes separate trap clean and test function, which saves time and protects the GC column and detector. Also incorporates the ability to re-collect sample for repeat analysis, the ability to perform dry purge without the internal standard accessory and the ability to perform tube and trap impedance measurement as a diagnostic of system performance.
Provides truly outstanding analytical performance in an automated sample-tube handling system for unattended analysis of up to 50 samples.
|Maximum Temperature||32 °C|
|Minimum Temperature||15 °C|
|Product Brand Name||TurboMatrix|
This is an application note on occupational exposure monitoring. Monitoring is often invaluable when making an initial assessment of a work environment, providing quantitative evidence to allow development of robust exposure control strategies.
Fire investigation involves many different types of analyses – from crime scene investigation through analytical chemistry. If a fire’s ignition is suspicious, the analysis will include gas chromatography (GC) as a means to detect the presence of a liquid accelerant; this analysis may include mass spectrometry (MS) as the initial detector or as confirmatory analysis.
Wallpaper is widely used throughout the world as an interior design choice that offers bright colors, rich designs and durability, all at an affordable price. Vinyl wallpaper has emerged as an especially durable choice over paper and non-woven varieties of wallpaper, however, its manufacturing poses many environmental concerns. When manufacturing wallpaper, a large amount of organic solvent is utilized in the treatment and printing processes. As a result, high levels of volatile organic compounds (VOCs) can be present in the product, which pose an inhalation risk to humans. To identify potential levels of VOCs in wallpaper samples, a method was undertaken, targeting 35 volatile organic compounds using a PerkinElmer TurboMatrix™ 650 ATD and PerkinElmer Clarus® SQ8 GC/MS, with results and methodology introduced in this study.
Today’s plastics are some of the most used materials on a global volume basis. Broadly integrated into today’s industrial and commercial lifestyles, they make a major, irreplaceable contribution to virtually every product category.
In this compendium you will find a wide range of applications for polymers, plastics, rubbers and advanced materials. Discover how to put these applications to work for you simply and efficiently.
The extraction and concentration of the residual fire accelerant components from fire residue and their introduction into a gas chromatograph may be performed in a number of ways but normally using liquid or thermal desorption. In this note, a method is described that uses thermal desorption – gas chromatographic (TD-GC) instrumentation to perform the extraction and analysis automatically.
A new, single method to replace the two-method approach using United States Environmental Protection Agency (EPA) Methods TO-15 and TO-13A for the analysis of both volatile organic compounds (VOC) and semivolatile organic compounds (SVOC) in air. The study presents evidence that these components can be determined using one analytical method that follows EPA TO-17 capturing the volatile compounds in addition to recovering the heaviest components, such as benzo[ghi]perylene. The investigation also takes a look at some of the 50 additional compounds that are expected to be added to this list in the near future.
For laboratories analyzing everything from air quality to flavors and fragrances, thermal desorption offers a faster, easier, more cost-efficient way to prepare samples for GC or GC/MS analysis. Ideal for the trace-level measurement of volatile organic compounds (VOCs)—as well as most semi-volatile chemicals—thermal desorption lets you avoid time-consuming, manual, solvent-based sample preparation in favor of a simple, streamlined, automated approach. It also delivers the added benefits of superior throughput and enhanced sensitivity.
PerkinElmer’s new desorption tube is now used on a routine basis and it is changing the way Pace and its customers conduct environmental testing. In fact, productivity and customer satisfaction at Pace Labs has significantly improved thanks to this single method approach. The benefits of the TO-17 thermal desorption tubes are that they use no solvent, rendering it a more environmentally friendly method.
The coveted and well-recognized “new car smell” is often seen as an indicator of the age and cleanliness of a vehicle. However, what many consumers do not know is that this smell is a result of the off-gassing of volatile organic compounds (VOCs) found in the vehicle’s leather, plastics and textiles. The Verband der Automobilindustrie (VDA), or German Association of the Automotive Industry, has developed a guidance document (VDA 278) outlining recommended testing to ensure levels of VOCs in vehicles do not pose a risk to human health.
This guidebook offers a comprehensive overview of the analytical techniques utilized in support of VDA 278 regulations, utilizing a PerkinElmer Clarus® SQ8 GC/MS and TurboMatrix™ ATD for the quantification of VOC emissions in vehicle interiors.
In the manufacturing of scented candles, there is a need to determine the amount of fragrance as well as the compounds of the fragrance transferred to the candle wax.
Users guide for TubroMatrix Series Thermal Desorbers.
The Polymer Market consists of a huge diversity of manufacturers of industrial products running many different processes yet still facing similar challenges. There is more and more pressure to achieve high product quality and reduce costs in order to stay one step ahead of the competition.
Based on EPA modeling, Method EPA 325 A/B will lead to a reduction of an estimated 52,000 tons per year of volatile organic compounds being emitted into the environment. In the face of this major new environmental standard, we can all breathe a bit easier knowing that PerkinElmer’s innovative technologies, operational effectiveness, and environmental expertise is available to help you become compliant.