Quickly identify unknown materials and contaminants that may affect product quality. The Thermo Scientific Nicolet iN5 FTIR microscope provides rapid identification with point-and-shoot simplicity. The no-nonsense workflow requires only a few short steps; there’s no need to learn complex software. You can get answers in minutes — without the need for spectroscopy expertise. Simply see it, scan it, and solve it. Built for the demands of the busy QA/QC lab, the Nicolet iN5 microscope will provide reliable operation for years, across multiple users and product analysis needs
Sample Illumination : Sample Illumination: High-intensity LED Sample View : Simultaneous view/sample (Simul-View) Video Image : 1.3 megapixel camera Objectives : 10×, N.A. 0.71; Permanent alignment; ATR ready Condenser type : Permanent centration; Z-focus positioning Power requirements : Powered by the spectrometer Dimensions (D x W x H) : 35 × 66 × 56 cm (13.8 × 26 × 22 in.) Weight : 29 kg (64 lbs)
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.