With the PerkinElmer GCMS 2400™ System laboratories have a robust solution that offers both stability and ultra-low detection limits. Engineered around an advanced fast quadrupole mass spectrometer, the MS 2400 SQ Detector is integrated into the GC 2400 Platform, driving laboratory’s journey from sample to results. Thanks to simplified maintenance and long-lasting features, the MS 2400 SQ System optimizes lab efficiency with ease-of-use and intuitive hardware. The GCMS 2400 System features a detachable touchscreen combined with smart sampling capabilities for faster decision making, in and outside the lab.
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Designed to address modern analytical lab productivity, the user interface collates and provides live status information on the different configured GC detectors and sampling accessories, using a single display. Managed by PerkinElmer SimplicityChrom™ Chromatography Data System (CDS) Software, the MS 2400 SQ System is integral part of a comprehensive GC workflow.
No matter the application, from industrial, environmental, pharmaceutical or food and beverage, the GCMS 2400 System delivers accurate data, giving full confidence of results.
KEY FEATURES
Solid-state batteries (SSBs) are quickly becoming more popular as the industry looks to improve upon rechargeable battery performance and safety. These are batteries which use a solidstate electrolyte in place of the more conventional liquid electrolyte. Hyphenated techniques allow the user to not o ...
Polyacrylic acid, also known as Carbomer, is used extensively in formulations across many industries, including cosmetics, pharmaceuticals, and personal care. Carbomers are polymers of acrylic acid cross-linked with allyl ethers of pentaerythritol or sucrose forming white, lightweight polymers that ...
Different types of plastics are used for these diverse applications, but all plastic manufacturing has a few common raw material needs, including monomers and solvents. Plastic manufacturing workflows are designed to use all monomer input in the formation of the plastic polymer, and to remove all so ...
Cetyl alcohol, also known as palmityl alcohol or 1-hexadecanol, is a long-chain aliphatic alcohol that is a common additive in foods, cosmetics, personal care products (e.g., lotions and creams), and industrial fuels. To ensure cetyl alcohol quality, the United States Pharmacopoeia (USP) has outline ...
The analysis of triacylglycerols by gas chromatography (GC) in their native state is challenging, largely due to their poor volatility and tnhermal decomposition in hot injector ports. To improve their properties for GC and to provide a comprehensive characterization of fatty acids, the esterified f ...
For more than 40 years, the United States Environmental Protection Agency (EPA) has monitored semivolatile organic compounds (SVOC) in wastes, soils/sediments, and groundwater via its Method 8270. This method is extensive in scope, targeting chemicals found in petroleum/soot (e.g., polycyclic aromat ...
Organic solvents are commonly used in the production of active pharmaceutical ingredients (API) and pharmaceutical products. The solvents are used for varying purposes including as synthesis reaction media, in the separation and purification of API during synthesis, to enhance yield, to impart desir ...
This application note shows the integration of the PerkinElmer GC 2400™ Platform in a Waters Empower CDS Software environment for the analysis of residual solvents Chapter USP 467. Results show improved productivity and lab time optimization. Instrument control and data analysis was managed by Water ...
Biofuels continue to be of key importance to the energy sector as more renewable fuel solutions are developed to contribute to global climate goals and resolve energy shortages. Fatty Acid Methyl Ester (FAME) Biodiesel (B100) is a key component for blending with fossil-fuel diesel in portions of up ...
Sustainability strategies are being integrated into a growing number of businesses and their operations. Laboratories are no exception. Although the necessity to reduce the environmental impact of laboratory operations is recognized, it cannot be disengaged from the economic viability of labs. Rathe ...
Labs seek to increase the capacity of their equipment, improve turnaround times and maximize the sensitivity of their testing – without placing additional burden on their operators. Simplification is one of the strategies of Industry 4.0 for manufacturing processes. It can also be applied to laborat ...
Interest in the potential of smart technologies was high before the pandemic hit in 2020. That interest changed to a necessity when businesses were faced with the need for remote and automated operations in order to maintain business continuity. Businesses that have embraced smart operations are see ...
Every day, analytical laboratories are challenged with balancing high productivity with efficient operations. And with the growing trend of hybrid work models, gas chromatography operators seek remote access to their GC – whether they’re working in a different part of the lab or at a completely diff ...
Download this interactive brochure to see all our biofuel lab solutions and supporting services. Maximize your laboratory's prospects in biofuels production and testing with PerkinElmer’s analytical solutions that can help you achieve high product qualit
PerkinElmer MS 2400 SQ System is designed around the cutting-edge Clarifi Detector. Engineered using the latest electron multiplier technology, the Clarifi Detector provides superior sensitivity (signal-to-noise) and the longest operational lifetime. Ions are efficiently converted into an electronic ...
Supporting unparalleled sensitivity, pinpoint precision, and ultimate ease-of-use, the HS 2400™ Headspace Sampler pairs with most standard GC Systems and features patented pressure balance sampling technology that allows precise introduction of samples into the column without the use of a gas syring ...
The innovative PerkinElmer 2400 System allows customers to achieve unprecedented levels of efficiency. Designed to address the growing productivity and throughput needs of analytical laboratories, the GC 2400 System features a detachable touchscreen, so you can make decisions faster and be more prod ...
The PerkinElmer MS 2400™ SQ Detector comes standard with SMARTsource™ (Simplified Maintenance And Removal Technology), GC/MS source easy to remove, clean and reassemble – without the need for tools. A simple twist of the SMARTsource allows users to completely remove the ion source and lenses of the ...
At the center of the GC 2400 Platform development was an understanding of current trends and a strong focus on productivity for pharmaceutical, food, environmental and industrial analyses.
A new way of production sustained by digitalization via smart and autonomous systems is what the Industry 4.0 concept entices. Laboratory managers are trying to decipher how they can implement the smart strategies of Industry 4.0 in their labs in order
The PerkinElmer GC 2400 Platform addresses sustainability in two ways: firstly, by optimizing the use of helium, secondly, by promoting the use of hydrogen, a less costly and renewable alternative to helium, addressing also safety concerns.
Platforms equipped with automation elements and software-driven workflows will be key to enable productivity and decrease downtime.
As we entered a time of remote/hybrid working, laboratories showed an increased interest in remote and automated operations.
Experience real time status updates, integrated HS and GC workflow, and enjoy intuitive software.
A new way of production sustained by digitalization via smart and autonomous systems is precisely what the Industry 4.0 concept entices.
As analytical workloads have increased, labs analyzing Volatile Organic Compounds (VOCs) in soils and water by purge and trap with a gas chromatograph mass spectrometer (P&T and GC/MS) according to EPA Method 8260 are facing challenges in maintaining...
Today’s lab analysts and operators are increasingly digitally-savvy and are seeking state-of-the-art solutions that enable them to be more efficient.
Laboratories performing residual solvent analysis according to USP 467 strive to meet the requirements of the method while trying to optimize their workflow combining different analytical technologies and reduce laboratory costs.