Used BIO-RAD FTS 40 #293655142 for sale
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BIO-RAD FTS 40 is an FT-IR spectrometer designed for the rapid and accurate characterization of various materials, such as biomaterials, delicate organics, and synthetic materials. This spectrometer offers superior sensitivity, robustness, and ease of operation. BIO-RAD FTS-40 consists of a sensitive vacuum module with a modular structure that supports three different sample compartments, allowing for the analysis of various samples in one single run. It is equipped with a high-resolution interferometer that allows for rapid acquisition of FT-IR spectra with a minimum resolution of 0.25 cm-1. The spectrometer is also equipped with an integrated sample chamber that can support samples of different sizes. Additionally, FTS 40 is capable of providing reproducible results with high precision, even for the smallest samples, thanks to its highly advanced spectroscopic features. FTS-40 is equipped with a range of advanced acquisition and processing software packages. Its open architecture platform allows simple integration with laboratory automation, as well as direct access to external analysis software. BIO-RAD FTS 40 is designed to deliver reproducible and accurate measurements of molecular structure and chemical composition. A variety of sampling accessories, such as diffuse reflectance, attenuated total reflection cells, and aqueous sample holders, are available for use with BIO-RAD FTS-40. FTS 40 spectrometer is recognised as one of the most reliable and versatile instruments available today. It is a robust platform featuring low-maintenance operation and unparalleled performance. FTS-40 is ideal for research laboratories, since it combines high resolution and excellent sensitivity with rapid measurement processing. This powerful spectrometer is capable of generating highly accurate FT-IR spectra, allowing for the precise identification of the fabric composition of samples. Furthermore, the spectrometer is optimised for rapid data acquisition with variable integration times or broad-band experiments. As a result, its performance is highly reliable in various applications and can be used to analyse a wide range of materials.
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