In the field of catalysis, understanding the structural and electronic properties of catalysts at low temperatures is crucial. Cryogenically cooled probes offer several advantages: - Enhanced Resolution: Lower temperatures reduce thermal vibrations, leading to improved resolution in techniques like Nuclear Magnetic Resonance (NMR) and Electron Microscopy. - Stabilization of Reactive Intermediates: They help stabilize transient species or intermediates that might only exist at low temperatures, aiding in the detailed study of reaction mechanisms. - Improved Sensitivity: Cold probes increase the sensitivity of spectroscopic methods, enabling the detection of weak signals that are otherwise undetectable at room temperature.
