Application Notes: General

In this application note, we present microwave digestion protocol for various components of lithium batteries along with analysis of reference and spiked materials.

In municipal and industrial treatment plants, many different wastewater samples from various inlets, outlets, and pumping stations must be analyzed regularly.

Highlight of the superior performance achieved with a dedicated HF-resistant, high-performance sample introduction system (HP-SIS) from Glass Expansion.

In this application note, we use an Ocean ST-UV microspectrometer (185-650 nm) to measure the absorbance of whole blood and methemoglobin.

Learn of three real-life examples of using Raman microscopy in battery research, focusing on lithium batteries to better understand the process both ex- and in-situ.

A section of a fruit berry seed was chemically imaged with infrared spectromicroscopy revealing domains of phospholipid-rich regions from the cell walls of the seed’s skin.

This work demonstrates the ability of the NexION® SP-ICP-MS to detect iron-containing nanoparticles in organic solvents using Reaction mode.

Using Agilent MicroLab software for FT-IR to perform fast, easy, and reliable workflows for the analysis of different sample-types.

Agilent Cary 630 FT-IR performs easy, fast, and reliable liquid measurements.

This survey shows how Raman imaging can characterize food samples such as honey, chocolate, and fat spreads to help understand the products and production processes.

This reference notebook provides the tools you need to quickly and efficiently develop digestion methods for inorganic sample preparation needs.

In this work, the analysis of toxic elements in various food matrices following AOAC 2015.01 was validated using the NexION® 2000 ICP-MS.

Analysis of toxic elements (As, Cd, Hg, and Pb) and other trace elements (Cr, Mn, Ni, Cu, Zn, Se, Mo, and Tl) in baby foods following U.S. FDA EAM 4.7