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In 1969, Bruker launched the first commercial Fourier transform NMR spectroscopy system (FT-NMR) and in the 1970s the company was the first to commercialize a superconducting FT-NMR. Later, the company would expand their product range with MRI , FTIR and FT- Raman spectrometers and with mass spectrometers .
Energy-level diagram showing the states involved in Raman spectra. Raman spectroscopy (/ ˈ r ɑː m ən /) (named after physicist C. V. Raman) is a spectroscopic technique typically used to determine vibrational modes of molecules, although rotational and other low-frequency modes of systems may also be observed. [1]
Bruker Introduces Proprietary IRIS TERS Probes High-Contrast, Proven TERS Probe Tips for Complete Innova-IRIS TERS Solution BOSTON--(BUSINESS WIRE)-- Bruker announced today at the 2012 Materials ...
Raman spectroscopy is used to analyze a wide range of materials, including gases, liquids, and solids. Highly complex materials such as biological organisms and human tissue [26] can also be analyzed by Raman spectroscopy. For solid materials, Raman scattering is used as a tool to detect high-frequency phonon and magnon excitations.
Raman spectroscopy combined with electrochemical techniques, makes Raman spectroelectrochemistry a powerful technique in the identification, characterization and quantification of molecules. The main advantage of Raman spectroelectrochemistry is that it is not limited to the selected solvent, and aqueous and organic solutions can be used.
A very low noise detector, such as MCT (HgCdTe), is also selected for the VCD signal phase-sensitive detection. The first dedicated VCD spectrometer brought to market was the ChiralIR from Bomem/BioTools, Inc. in 1997. Today, Thermo-Electron, Bruker, Jasco and BioTools offer either VCD accessories or stand-alone instrumentation. [20]
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