Nuclear Magnetic Resonance (NMR) is a spectroscopy technique that is commonly used to determine the chemical composition of substances.
FT-Raman Bruker MultiRam spectrometer with an excitation laser at 1,064 nm. Includes high sensitivit (more)y Ge detector. Cooled by liquid N2. Autonomy: 5 days. Filter the Raman signal at 1064 nm. PC with OPUS Search program that allows you to create your own spectral libraries. Note: The packaging, transportation and installation is not included as it must be done by the manufacturer for the perfect conservation of the equipment. Combine advanced digital electronics with Bruker’s high quality optics and you have the ultimate in a high performance FT-Raman system. The intuitive, easy-to-use OPUS software controls all data collection and manipulation functions for the MultiRAM. The real-time spectrum display permits software control of the analysis conditions, including optimization of the laser power and the sample position.High PerformanceThe MultiRAM configuration provides a spectral range of 3600 – 50 cm-1 (Stokes shift). The heart of the MultiRAM is Bruker’s patented interferometer with gold coated optics and permanent RockSolidTM alignment, which provides the superb stability and throughput required for demanding emission experiments, as it is the case for Raman spectroscopy.Sampling FlexibilityThe large sample compartment is easily accessible from 3 sides and features switching to 90° scattering geometry, and defocusing optics which are essential for successful analysis of samples sensitive of thermal heating. A motorized sample stage for optimization of the sample position , and a white light source to correct the spectra for instrument responses are included in the standard configuration of the MultiRAM. Additional sampling accessories, such as automatic sample changers, low and high temperature stages are optional. Sensitivity and StabilityEquipped with a broad band quartz beamsplitter, Bruker’s patented and frictionless RockSolid interferometer guarantees highest sensitivity and stability. The Nd:YAG laser sample excitation source (1064 nm) is fully software controlled. High throughput optics and Bruker’s unique liquid nitrogen cooled Germanium diode detector offers ultra-low signal detection with minimal noise assuring excellent sensitivity. The long hold time of the refrigerant provides hassle free operation for an entire week.
This listing is for a Bruker Microflex LT/SH MALDI-TOF Mass Spectrometer Very good working and cosm (more)etic condition, we have service reports showing working condition in December 2022. Includes PC with software APC Smart-UPS on-line The IVD MALDI Biotyper® system solution based on the microflex® LT/SH MALDI-TOF mass spectrometer has, over the last decade, revolutionized the routine identification of microorganisms. The microflex® LT/SH is a compact linear mode only benchtop MALDI-TOF system designed as an easy-to-use, but high performance solution for microbiology laboratories. This affordable, high value benchtop MALDI-TOF mass spectrometer with 60 Hz nitrogen laser is designed for microbiology. The instrument benefits from its gridless, self-cleaning ion source, providing excellent sensitivity in positive ion mode. Operating under the dedicated IVD-CE MALDI Biotyper® software platform for intuitive operation, especially by non-expert users and in multi-instrument laboratories, the microflex® LT/SH is a robust and easy-to-use system for routine microbial identification. The microflex® LT/SH features the patented PAN™ technology for high mass resolution over a broad mass range, within a compact device. Designed as a benchtop solution, it can be easily integrated into every laboratory. The self-cleaning ion source permits continuous high performance with minimized maintenance requirements. The push-button IR-laser cleaning is easy to perform and takes just 15 minutes. Intervals for planned maintenances are therefore longer and downtime periods shorter.