Sample and solve your toughest analytical challenges with minimal time investment — and often with only one click. The Thermo Scientific Nicolet iS10 FT-IR Spectrometer offers the highest confidence in materials identification and verification. Just load your sample, generate the spectrum and press print. Designed for rugged, precise and fast-paced operation, the Nicolet iS10 FT-IR Spectrometer simplifies laboratory data collection, combining advanced technology with easy operation for quality performance across technicians of any skill level
Beam splitter : KBr/Ge mid-infrared optimized (standard); XT-KBr/Ge extended range mid-infrared (optional) Laser : HeNe Performance verification : ASTM E1421 to meet customer ISO/GLP requirements, Components : Mid-infrared Ever-Glo and Tungsten/halogen (both are user replaceable from sample compartment) Power supply : 100-240 V 50/60 Hz Depth (Metric) : 550mm Source type : Mid-infrared Ever-Glo and Tungsten/halogen (both are user replaceable from sample compartment) Components : Mid-infrared Ever-Glo and Tungsten/halogen (both are user replaceable from sample compartment) Spectral range : 7800-350 cm-1 optimized, mid-infrared KBr beamsplitter, 11000-375 cm-1 XT KBr extended range mid-infrared optics Spectral resolution : Better than 0.4 wavenumber Interface : PC USB 2.0 Weight : 33 kg
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.