Streamline your infrared microanalysis workflow with the Thermo Scientific Nicolet iN10 Infrared Microscope. Designed with the simplicity of an FT-IR spectrometer and the ability to measure samples down to a few microns, it is a modern, productive and cost-effective infrared microanalysis solution. The Nicolet iN10 IR Microscope provides answers with the high degree of confidence required by today’s analytical laboratories
Video image : High resolution 1/3 inch color digital camera USB2 with 1024 × 768 XGA low-noise CCD Real-time IR spectrum : Thermo Scientific™ TruView™ – simultaneous view of sample aperture positioned, even during collection Sample thickness : Up to 20 mm with standard sample holders Interferometer : Dynamically aligned high-speed interferometer, Beamsplitter : Multi-coated KBr/germanium Infrared source : EverGlo air-cooled long lasting source, externally mounted Spectral range : 7600–650 cm-1 Detector type : Standard: DTGS; Optional: MCT-A Operating system : Windows XP or Windows 7 Height (Metric) : 533 mm Voltage : 100-240VAC 47-63Hz 3.2A Width (Metric) : 622 mm Model : Nicolet iN10 Infrared Microscope Applications : Microspectroscopy; Material Identification; Packaging and Laminates; Coatings; API mixtures distribution mapping; Contaminant Identification; Failure Analysis Depth (Metric) : 653 mm Certifications/Compliance : CE; ETL; Manufactured in an ISO 9001:2000 certified facility Includes : Sampling Tool Kit Dimensions : 622 mm × 653 mm × 533 mm
Gas Chromatography is a kind of instrument for qualitative and quantitative analysis of multicomponent complex mixture by using chromatographic separation technology and detection technology. Generally, it can be used to analyze the thermal stable organic compounds in soil, such as volatile organic compounds, organic chlorine, organic phosphorus, polycyclic aromatic hydrocarbons, phthalates, etc.
Gas Chromatography is a kind of instrument for qualitative and quantitative analysis of multicomponent complex mixture by using chromatographic separation technology and detection technology. Generally, it can be used to analyze the thermal stable organic compounds in soil, such as volatile organic compounds, organic chlorine, organic phosphorus, polycyclic aromatic hydrocarbons, phthalates, etc.
Liquid Chromatography uses the mixture in liquid-solid or immiscible between the two liquid distribution ratio differences, the mix of the first separation, then analysis and identification of the instrument.