Industries are adopting methods to enhance analytical performance while minimizing ecological impact. In ion chromatography, using microbore columns with diameters of 2 mm or less reduces eluent use, cutting hazardous waste and improving throughput.This note highlights rapid anion analysis in water using microbore column, which significantly reduces liquid waste compared to standard bore columns. This method enhances safety and sustainability by minimizing waste production.Both chemical and electrolytic suppression techniques are demonstrated.
An ion chromatography-mass spectrometry (IC-MS) method to meet the analytical need of understanding the sample composition and degradation byproduct in simulated battery electrolytes. Integrating an organic solvent gradient, this method achieves excellent separation of many analytes allowing lithium-ion battery (LIB) manufacturers and researchers to gain knoledge to improve quality assurance, quality control and failure analysis processes to ensure the battery's performance.
Demonstrates the determination of inorganic anions in drinking water by IC with built-in peristaltic pump for regenerant flow to a chemical suppressor.
The method used a Thermo Scientific™ Dionex™ IonPac™ AS23-4μm column, a Thermo Scientific™ Dionex™ AERS™ 500 Carbonate anion electrolytically regenerated suppressor, and a Thermo Scientific™ Dionex™ CRD 300 Carbonate Removal Device in vacuum mode. This work demonstrates a similar method on a Thermo Scientific™ Dionex™ Inuvion™ ion chromatography system, a new integrated, single-channel compact IC system.
This application proof note demonstrates a determination of citrate and phosphate in pharmaceutical formulations using the method published in Thermo Fisher Scientific Application Note 164. In this proof note, the method is performed using Inuvion IC system.
