Заметки по применению

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Determination of Sulfur and Carbon in Lithium Iron Phosphate Battery Materials

Carbon determination in Lithium Iron Phosphate is important as the Carbon content directly impacts the performance of this battery material. In addition, emerging battery technologies can take advantage of improved Sulfur utilization when LiFePO4 is used as an additive, making Sulfur determination in the base material an important quality control parameter.

Quantitation of Olefin Content in Plastic-Derived Pyrolysis Oils — QuadJet SD

Comprehensive two-dimensional gas chromatography with flame ionization detection (GCxGC-FID) has proven to be one of the most effective analytical methods for analyzing complex mixtures, allowing for the detailed separation and identification of the hydrocarbons present while providing efficient, high-resolution chromatographic separations.

Determination of Nitrogen in Plastics

The determination of Nitrogen is crucial in the material characterization and quality control procedures for the manufacturing and molding process of plastic materials. The LECO FP928 is a Nitrogen determinator that utilizes an automated Dumas combustion method and provides accurate and precise results in approximately five minutes. This eliminates involved sample preparation and the use of hazardous materials resulting in a cost-effective method for the quality control of plastic production.

Satisfying ASTM D8396 Requirements Paradigm GCxGC-FID

This application note describes how to use a simple workflow with the LECO Paradigm system to fulfill the requirements of the ASTM D8396 test method to quantitatively determine mass % of total n-paraffins, iso-paraffins, naphthenes, 1-ring aromatics, and 2-ring aromatics using reverse-fill flush flow modulated comprehensive two-dimensional gas chromatography–flame ionization detection (GCxGC-FID). Understanding of bulk composition is crucial for fast-track certification of synthetic aviation fuels as outlined in ASTM D4054, and the more accurate group-type analysis results provided by GCxGC assist with streamlining the acceptance process.

CX300 Sectioning for Weld Evaluation

For numerous applications, it is necessary to measure the quality of a weld, and there are several methods for doing so. Making a sacrificial test weld and using a microscope to measure the weld's critical areas is a popular technique. This procedure may require a lot of time and resources. However, by skipping the mounting and polishing stages, the work can be kept more efficient. Bypassing those phases in the metallographic sample preparation procedure, this "Cut and Etch" technique yields accurate readings.

Ginger Oil Analysis and Grade Differentiation with Pegasus BTX Using Hydrogen Carrier Gas

Ginger Oil Analysis and Grade Differentiation with Pegasus BTX Using Hydrogen Carrier Gas

Determination of Ash in Polystyrene

Determination of Ash in Polystyrene

Determination of Ash in Polyethylene

Determination of Ash in Polypropylene

Determination of Carbon and Sulfur in Lithium Iron Phosphate Battery Materials

Analysis of Phytosanitary Products in Surface Water and Groundwater Using GCxGC-TOFMS

Compositional Depth Profile Analysis of Galvanized Steel

Determination of Nitrogen/Protein in Whey and Powdered Dairy Products

Enhanced Characterization and Comparison of Thyme Varieties from Different Geographical Origins`

Pegasus BTX and ChromaTOF Sync Application Note - Thyme Varieties

Characterization of Fischer-Tropsch Synthetic Paraffinic Kerosene and Traditional Aviation Turbine Fuel

Pegasus BTX 4D Application Note - Synthetic Aviation Fuels

Expand Your PFAS Analysis — Screen for Targets and Identify Unknowns Simultaneously

Pegasus BTX Application Note - PFAS

Non-Target Characterization of Molasses with GC-TOFMS and Deconvolution

Pegasus BTX Application Snapshot - Molassess

Identifying Heteroatomic Species in HTL Pyrolysis Gasoline by GCxGC-TOFMS

Pegasus BTX 4D Application Snapshot - HTL Pyrolysis Gasoline

Identifying a Targeted Disinfection Byproduct in Wildfire Ash Water Extract by GC-TOFMS

Wildfires increase the risk of negative chemical reactions with municipal water treatment processes.

Detecting Low-Level Features and Separating Coelutions with GCxGC to Reveal More in Basil

Pegasus BTX 4D Application Snapshot - Basil