PerkinElmer

This work focuses on the analysis of potable waters using the Avio® 220 Max hybrid simultaneous ICP-OES

This work demonstrates the ability of the NexION® ICP-MS to measure silver (Ag) nanoparticles in seawater and track their transformations over time.

This work has demonstrated the ability of the NexION 2000 ICP-MS to analyze both natural and drinking water samples.

This work demonstrates the ability of the Avio 560 Max ICP-OES to perform rapid analysis.

This work presents a method for the direct analysis of trace elements in coastal seawater using the NexION® 2000 ICP-MS.

This work demonstrates the capability of the NexION® 2200 ICP-MS to effectively analyze petroleum distillates according to the ASTM D8110-17 method requirements.

This work focuses on the analysis of potable waters at required levels using the Avio® 220 Max hybrid simultaneous ICP-OES.

This work demonstrates the ability of the NexION® 5000 ICP-MS to perform reproducible analyses of blood samples with excellent stability over long sample run times.

This work demonstrates the coupling of an IAS Expert_PS VPD system with the NexION® 5000 Multi-Quadrupole ICP-MS for determination of metallic impurities in Si wafers.

This application note demonstrates the ability of the NexION® 5000 ICP-MS to achieve outstanding detection limits for the analysis of Li salts.

This application digest offers a selection of application spotlights across different market segments with the opportunity to download the full application notes.

This work demonstrates the accurate and reliable quantification of impurities in Cu concentrate using the NexION® 5000 ICP-MS.

This work demonstrates a method for the analysis of a variety of pet food samples by ICP-OES, with the benefits of low argon consumption and rapid analysis times.

This work shows how the Spectrum 3 FT-IR with a Universal ATR accessory may be used to measure the change in spectral information as the resin cures.

This application note describes experiments performed on pressure sensitive, cyanoacrylates, and water-based adhesives.

This work demonstrates how combining TGA and infrared spectroscopy is an effective way to identify the components present in each of the different paint formulations.

This work describes how FT-IR equipped with a UATR accessory along with a Specac Arrow™ top plate is used to characterize three different sealants.

This application note describes how ATR measurements can be extended to monitor the changes taking place over time as the material dries or cures.

This work describes efficient total solar reflectance calculations using PerkinElmer LAMBDA 1050+ UV/Vis/NIR spectrophotometer for enhanced QC results.

This work demonstrates the separation, detection, and analysis of DBT, TBT, DPT, and TPT in tap water.

This work describes the analysis of wastewaters following Method 200.7 using the Avio 560 Max ICP-OES.

This work presents a method for the direct analysis of trace elements in coastal seawater using the NexION® 2000 ICP-MS.

This work has demonstrated the ability of the NexION 2000 ICP-MS to analyze both natural and drinking water samples in accordance with U.S. EPA Method 200.8.

This application note presents a method for the direct analysis of trace elements in seawater samples using the NexION® 5000 ICP-MS.

This work focuses on the analysis of potable waters using ICP-OES, measuring elements analyzed by AAS, IC, and FIA at required levels.

This study demonstrates the ability of the NexSAR™ HPLC-ICP-MS speciation solution to characterize five selenium species in drinking water in under 13 min.

This work describes using LC-ICP-MS to measure both trivalent and hexavalent chromium in drinking waters

This article highlights key considerations, innovations, applications, and guidelines in microwave digestion for optimized sample preparation quality and efficiency.

This work demonstrates the ability of the NexION® 2000 ICP-MS to accurately and directly measure 16 trace elements in a nickel-based superalloy matrix.

This application note describes the use of multi-component analysis for accurate determination of each individual absorbing species in an aqueous mixture.