Application Notes: General

HR ICP-OES with high-resolution optical system, superior sensitivity, matrix tolerance achieves lowest LOD for trace element analysis in complex water-alcohol-oil samples

HR ICP-OES with high-resolution optical system, superior sensitivity, and matrix tolerance achieve sub-ppb detection limits for trace element analysis in saline matrices

This application note demonstrates how the PlasmaQuant MS provides low detection limits, accurate results and long-term stability analyzing volatile solvents.

This application note describes a how to achieve quantitative digestion of lactic acid without soot formation in the shortest measurement time.

This application note describes a reliable and fast method for the separation of more than five As species by coupling a PQ LC HPLC system and a PlasmaQuant® MS, ICP-MS.

This application note describes different application methods for the fast and reliable determination of widely varying sulfur contents.

This application note describes using complementary s-SNOM and AFM-IR techniques to characterize 2D materials such as graphene, nanoantennae, and semiconductor materials.

The determination of mercury concentrations in environmental samples such as natural waters and wastewaters is important in environmental risk assessment.

Integrating Raman spectroscopy and holography, researchers are developing a system capable of in-situ monitoring of microplastics in our oceans depths.

This application note discusses and provides examples of the use of AFM-IR to address nanoscale chemical characterization on a range of polymeric and thin film samples.

In order to make combustion more efficient without major greenhouse gas emissions, quantum cascade lasers are used in a setup to study ignition delay times.

PerkinElmer’s LPC 500™-Avio® 550 Max ICP-OES integrated solution enables the same diluted sample to be analyzed for multi-element determination and particle count in a single run.

Monitor additive levels, corrosion metals, and contaminants in accordance with ASTM D6130. PerkinElmer’s Avio® 550 Max ICP-OES provides accurate multi-element determination and more.

PerkinElmer's Avio® 550 Max ICP-OES accurately measures low levels of phosphorus, sulfur, copper, and iron in accordance with European Standard IP 581.

PerkinElmer's Avio® 560 Max ICP-OES performs rapid 60-second sample-to-sample analysis per EPA Method 200.7, thanks to its fully simultaneous capabilities and built-in HTS.

See how continuous flow-hydride generation on PerkinElmer's Avio® 220 Max ICP-OES with a single pre-reduction technique allows simultaneous measurement of both elements.

Analyzing high-concentration elements? PerkinElmer’s Avio® 220 Max ICP-OES performs accurate, stable analyses of plating bath solutions, with Attenuation mode and auto-integration.

For the analysis of major elements in lithium ore, PerkinElmer’s Avio® 550 Max ICP-OES provides equivalent results to flame AA, with multi-elemental analysis, and more.

Analyzing batteries for major components and impurity levels? PerkinElmer’s Avio® 550 Max ICP-OES delivers extremely high precision, performing true simultaneous measurements.

Application note describing how an Edinburgh Instruments FLS1000 Photoluminescence Spectrometer can be used to characterize solid sensors in a relevant environment of interest.

This application note demonstrates the measurement of the major binary alloy elements nickel and iron, and the critical tramp elements phosphorus, sulfur, and arsenic.

Available for both the Pro Radial and Pro Duo models, the D-Torch offers the laboratory the greatest flexibility with a range of options to fit any ICP application.

Learn how to select the most appropriate microwave digestion technology for determining trace and heavy metals via ICP-OES and ICP-MS.

This application note demonstrates how LECO’s GDS900 can be utilized to characterize carburized steel using the standard low alloy steel method for bulk analysis.