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Application report: Mining ores, catalysts, superalloys, and ceramics
Advanced Microwave Digestion Performance for High-Volume Pharmaceutical Laboratories
Utilizing Direct Mercury Analysis for Mercury Detection in Botanical Extracts, Vitamins and Dietary Supplements
Single Quadrupole ICP-MS vs Triple Quadrupole ICP-MS
Insight to help you select between single quadrupole ICP-MS and triple quadrupole ICP-MS for your analysis of a variety of applications.
Prop 65 Trace Metals Workflow: From Sample Prep to the Right Answer
Determination of Total Mercury in Coal Utilizing Direct Mercury Analysis
Delivering New Levels of Performance and Productivity for High Volume Labs
Determination of Total Mercury in Environmental Samples
5 Considerations for Microwave Digestion
5 Considerations for Microwave Digestion flyer
Trace Metals Analysis for Pharmaceutical Laboratories
Sample Preparation of Heavy Crude Oil Samples for Trace Metals Analysis
Reducing "Science-Friction" - Overcoming Challenges That Impact the Bottom Line for Contract Labs
Superior Sample Preparation for Elemental Analysis of Li-ION Battery Materials
Analyze Lithium-ion Batteries with Our inVia™
The inVia is the ultimate system for studies ranging from fundamental research on the materials involved through to final product quality control and failure analysis.
New Feature Boosts Spectrometer SNR
In this application, a novel signal-averaging technique is utilized that dramatically improves signal-to-noise ratio performance in Ocean Insight spectrometers.
Determination of TOC in Solid Waste
With TOC analyzers, like the multi-N/C duo systems TOC in waste samples can be determined fast, automated, cost-effective, and reliably by the TOC direct method.
Quantification and Chemical Identification of NOx Reduction Agent AdBlue (AUS32) Using ATR-FTIR (Nov 2022)
Agilent Cary 630 FT-IR performs easy, fast, and reliable liquid measurements.
The Agilent Cary 630 FTIR Spectrometer for Material Identification Applications (Nov 2022)
Using Agilent MicroLab software for FT-IR to perform fast, easy, and reliable workflows for the analysis of different sample-types.
Differentiating Biopharmaceutical Raw Materials Using Spatially Offset Raman Spectroscopy
Identification of Commercially Available Oligonucleotide Starting Materials Directly Through Containers
Rapid Identification of Raw Materials Inside Packaging
Rapid Identification of Polysorbates 20 and 80 Directly Through Amber Bottles
Identifying Raw Materials Inside Containers Using a Handheld Raman Spectrometer
Identifying Raw Materials Directly Through Paper Sacks
Analysis of Metallic Impurities in Specialty Semiconductor Gases Using Gas Exchange Device (GED)-ICP-MS
Expanding the applicability of handheld Raman spectroscopy.
Moving Raman from Researching to Routine
Downstream Biopharmaceutical Operations
This work investigates the utility of Raman spectroscopy to support a QbD manufacturing environment with real-time, in situ monitoring of downstream bioprocesses.
Sample Preparation and Analysis of Lithium Battery Components
In this application note, we present microwave digestion protocol for various components of lithium batteries along with analysis of reference and spiked materials.
