Spectroscopy

Molecular Spectroscopy

Molecular spectroscopy reveals the identity and composition of materials by studying how light interacts with matter. By probing molecular bonds, these techniques provide critical insight into chemical structure, composition, and behaviour.

Applicable to solids, liquids, gases, and even trace-level or microscopic samples, molecular spectroscopy underpins modern chemical analysis. Complementary methods—such as absorbance, color, fluorescence, and Nuclear Magnetic Resonance (NMR)—extend this capability, delivering a comprehensive view of molecular structure.

In simple terms: we let molecules interact with light—and they tell us their story. Concisely. Reliably. And with scientific confidence.

Atomic Spectroscopy

Atomic Spectroscopy reveals what matter is truly made of by studying how individual atoms interact with light. By probing the electronic structure of atoms, these techniques read the unique quantum “fingerprints” of each element—allowing precise identification and quantification of elemental composition.

Modern atomic spectrometers work seamlessly across solids, liquids, and gases, handling everything from bulk samples to trace-level concentrations and microscopic amounts. Complementing these methods, X-ray diffraction (XRD) is included for its close kinship with X-ray fluorescence—while XRD excels at uncovering crystal structures, it also contributes valuable elemental insights.