In this episode of The Chemistry Show, we explore Mössbauer spectroscopy, a highly specialized analytical technique that uses recoilless gamma-ray resonance to probe the chemical and structural properties of solid materials. Unlike many spectroscopic methods that rely on electronic transitions, Mössbauer spectroscopy accesses nuclear energy levels, providing an extraordinary level of precision.

The episode explains how key spectral features, isomer shifts, quadrupole splitting, and magnetic splitting, allow researchers to determine oxidation states, electronic configurations, and local symmetry environments. These parameters are especially powerful in iron and tin chemistry, where subtle changes in electron density and coordination geometry lead to distinct spectral signatures.

Powered by AI (Google NotebookLM), this episode is based on lecture material from the Structural Methods in Inorganic Chemistry course taught by Prof. Pedro Camargo at the University of Helsinki, and concludes our exploration of magnetic and nuclear spectroscopies in structural inorganic chemistry.