Infrared spectroscopy has been used for over 100 years, and it has become a robust method, relied upon by numerous applications to identify samples and detect impurities within them, as well as to ...

The sample preparation before conducting an infrared spectroscopy (IR) study is as critical as the study itself, and the samples which are difficult to dissolve in any IR-transparent solvent are mixed ...

This intensive workshop will introduce infrared spectroscopy, outline the various sample handling methods and provide guidance on the numerous transmission and reflectance methods available for ...

Intelligent manufacturing systems that enable real-time product releases will become commonplace in the not-too-distant future, thanks to advances in process monitoring and analytical techniques, ...

Submicron and nanoscale chemical identification of semiconductor materials, particularly organic ones, poses a considerable challenge in the analysis of devices and also in the process control and ...

A spectrometer that directly detects the vibrational “fingerprint” of molecules offers a sensitive new way of deducing a material’s chemical make-up. The device, which was developed by researchers in ...

Why is it important to know about different methods of sample handling? For the handling of specific sample types, certain techniques are more effective than others. To receive the best quality ...

Due to their unique properties for applications in battery technology, semiconductors, photovoltaics, and a number of other areas, 2D materials research is a very important emerging field. 2D ...

The SpectraStar XT Analyzer is a robust, easy-to-use near-infrared (NIR) analyzer for both laboratory and at-line environments in the food, agricultural, and ingredient markets. The XT includes True ...