FTIR spectroscopy and digital twin simulations enhance thin-film deposition in semiconductor manufacturing, ensuring precision and efficiency at the nanoscale.

In this interview, Dr. Suja Sukumaran explores the significance, versatility, and future advancements of FTIR spectroscopy, highlighting its pivotal role in material analysis, quality control, and ...

In Fourier transform infrared (FTIR) spectral imaging spatially distributed spectra of 2D surfaces are registered simultaneously using FTIR spectrometers equipped with array detectors. Scanning ...

Microplastics persist as ubiquitous environmental contaminants, and efficient methods to quantify and identify their presence are essential for assessing their environmental and health impacts. Common ...

Fourier Transform Infrared (FTIR) Spectroscopy is a key tool for identifying chemical compounds and analyzing molecular structures. Learn how to read and interpret FTIR spectra for accurate ...

Explore how FTIR spectroscopy is used in life sciences to analyze biomolecules, identify compounds, and advance research in biology and medicine.

Discover how FTIR spectroscopy provides a fast, cost-effective method for accurate API quantification in pharmaceutical formulations.

This activity report describes a novel pedagogical approach to teach undergraduate dentistry students about the degree of conversion of dental resin-based composites (RBCs) using Fourier Transform ...

FTIR spectroscopy detects counterfeit electronics fast and effectively. [1] It provides a critical solution in the fight against counterfeit products that threaten various sectors of our economy. As ...