Fourier Transform Infrared Spectrometer
A high-precision FTIR spectrometer for non-destructive molecular analysis of solids, liquids, and gases in pharmaceutical, chemical, forensic, and environmental applications.
Key Features:✔️Broad spectral range from 4500 to 700 cm⁻¹ for comprehensive molecular fingerprinting✔️High spectral resolution up to 0.5 cm⁻¹ for detailed compound identification✔️Solid corner-mirror Michelson interferometer for stable and accurate measurements✔️Room-temperature DLATGS detector eliminates the need for cryogenic cooling✔️High signal-to-noise ratio (>55,000:1) enabling detection of trace components✔️Wavenumber accuracy of 0.01 cm⁻¹ and transmittance accuracy <0.1%T for reliable results✔️Transmission sample chamber supports solids, liquids, and gases without reconfiguration✔️Compact, low-maintenance design ideal for research, industrial, and environmental monitoring
Fourier Transform Infrared Spectrometer
Fourier Transform Infrared Spectrometer features a solid corner mirror Michelson interferometer paired with a ZnSe beam splitter and ceramic light source. The unit spans a 4500 to 700 cm⁻¹ spectral range with maximum resolution of 0.5 cm⁻¹ for molecular fingerprint identification. A room-temperature DLaTGS detector operates without liquid nitrogen or cryogenic cooling systems, eliminating consumable refrigerant costs. Signal-to-noise ratio surpasses 55,000:1 for trace analysis in complex matrices. Wavenumber accuracy maintains 0.01 cm⁻¹ precision while transmittance accuracy stays under 0.1%T.
The transmission sample chamber accepts solid, liquid, and gaseous specimens without hardware modifications between measurement types. Ceramic source emissions pass through the interferometer, creating interference patterns that encode all wavelength information. Samples absorb specific frequencies matching molecular vibrational modes, producing modified interferograms captured by the detector. Fast Fourier Transform algorithms convert time-domain data into frequency-domain spectra showing absorption or transmittance patterns. This mathematical processing reveals chemical structures through wavelength-dependent molecular interactions.
Quality control laboratories deploy the Fourier Transform Infrared Spectrometer for pharmaceutical raw material verification and batch release testing. Petrochemical refineries analyze hydrocarbon compositions and identify fuel adulterants during production monitoring. Forensic laboratories examine unknown substances from investigation scenes through spectral database comparison. Materials research facilities characterize polymer structures and monitor synthesis reactions. Environmental compliance officers measure atmospheric emissions and industrial discharge for regulatory documentation.
Tactical Supply Pakistan supplies this spectrometer to institutions requiring non-destructive qualitative and quantitative molecular analysis across research and industrial quality assurance applications.
Can this instrument analyze samples in all three physical states? Yes, the transmission chamber configuration supports solid films, liquid cells, and gas absorption measurements without accessory changes, providing versatile sample handling for diverse applications.
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