More than ever, laboratories analyzing food and environmental samples are faced with evolving challenges with stricter regulations demanding lower detection limits and higher levels of productivity. Lab operations need to be optimized, without any compromise on analysis confidence and accuracy.
With the PerkinElmer QSight® Triple Quad LC/MS/MS labs can test for the most challenging samples with maximized uptime and confidence. The unique dual-source configuration enables high-throughput labs to collect data in two complementary modes, maximizing the output from a single injection. Combined with the StayClean™ technology dramatically reduced source cleaning and maintenance, translating into higher productivity and high ROI. Running on the PerkinElmer Simplicity™ 3Q Software, the PerkinElmer QSight Triple Quad LC/MS/MS is easy-to-learn and use and it is a complete solution streamlining the complete workflow, from validated method development to data reporting.
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The QSight LC/MS/MS System provides the capability and confidence required to analyze the most complex food and environmental samples. With high level of sensitivity and throughput, laboratories can meet even the most stringent regulatory requirements rapidly, easily, and effectively
| Model Name | QSight 110 LC/MS/MS |
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Governing bodies have implemented various directives to monitor acrylamide in drinking water. This also applies in the European Union where the water framework directive and subsequent daughter directives have defined many priority substances, including acrylamide. Compounds chlorate, perchlorate an ...
Growing health concerns regarding PFAS and their prevalence in consumer goods and the environment indicate a critical need to execute existing and upcoming regulatory methods simply and reliably on commercially available instrumentation. The United States Environmental Protection Agency (EPA) has es ...
Cyanotoxins often exist intracellularly in cyanobacteria and are released into the water when cells die. Blooms caused by cyanobacteria can be harmful to the human health, animals, and the environment. Microcystin-LR (MC-LR) is one of the most common cyanotoxins and ingestion will cause negative hum ...
The COVID-19 pandemic impacted industries, economies, and lives, and brought about the need for a new approach for contract testing laboratories working in different application fields. Considering the directions shaping the laboratory industry, this article revises trends that could be also applied ...
Liquid chromatography/tandem mass spectrometry (LC/MS/MS) is one of the most common bioanalytical methods used today, offering ultrasensitive detection in the several-partsper- million (or even parts-per-billion) range. The unique specificity of tandem mass spectrometry provides greater flexibility ...
Overcoming PFAS analytical challenges is critical for a comprehensive understanding of PFAS toxicities and environmental impacts. This article delves into the proper development and validation of analytical methods which will allow researchers to increase throughput and decrease sources of contamina ...
When it comes to analyzing food, cannabis, and environmental samples, we know it can be challenging to meet strict regulations that demand lower detection limits. We also know that throughput and efficiency are paramount in any accredited high-throughput laboratory. As a result, mass spectrometry is ...
Over the past decade, awareness and concern about Per- and Polyfluoroalkyl Substances (PFAS) has grown and led to more in-depth analysis of these compounds and the effects that they can have on human health. Due to their inert nature, PFASs are persistent organic pollutants and have been found to ac ...
This nanometrology portfolio infographic poster gives you a 1-page overview of the instrumentation required by laboratories for the investigation of nanomaterials which are used to develop advanced materials in a range of applications.
Analytical laboratories face many challenges when analyzing contaminants such as Pesticides, PFAS, mycotoxins in complex matrices. These samples often require time-consuming sample prep and regular maintenance of the analytical technology.
Due to PFAS persistence in the environment and potential health risks, regulations have been undergoing constant change and refinement.
PFAS matrix-induced contamination poses various challenges for analytical laboratories, from the risk of achieving low detection limits and lab downtime.
PFAS compounds are ubiquitous throughout the environment and accumulate everywhere, including in the lab.
As per- and polyfluoroalkyl compounds become more prominent, the US Environmental Protection Agency (EPA) are developing more stringent regulations for PFAS monitoring.
Stricter regulations demanding lower detection limits, increased throughput and efficiency demand that labs need an LC/MS/MS solutions that offers robust and reliable performance while ensuring efficiencies.
When examining complex compounds like PFAS, pesticides, and mycotoxins using LC/MS/MS in challenging matrices, laboratories encounter issues such as system contamination, matrix effects, and the laborious task of source cleaning.
When it comes to analyzing environmental or food samples, including water, soil, cannabis or any solid matrices, labs need to meet stricter regulations that demand lower detection limits.
In this short webinar, PerkinElmer’s Environmental Leader, Tom Hey, discusses simplified PFAS method implementation with the comprehensive PerkinElmer LC/MS/MS workflow, featuring ready-to use consumables kits, reagents and software-driven compliance.
