Bruker’s Advanced Compact Dispersive Raman Microscope
The Bruker SENTERRA II has redefined excellence in compact Raman microscopy. With unmatched sensitivity, high-resolution imaging, and top-notch performance, Bruker’s SENTERRA II sets itself apart as the go-to platform for advanced research endeavors.
Bruker’s SureCALTM technology masterfully measures the Raman spectrum of samples and laser/neon spectrums simultaneously. Using an Integral Transform Process, Bruker ensures accurate Raman data correction, leading to unparalleled precision and stability.
For unmatched flexibility, couple the RamanScope III with Bruker’s pioneering SENTERRA II dispersive Raman microscope. This distinctive collaboration by Bruker offers groundbreaking analysis capabilities, allowing thorough spectroscopic characterizations using varied excitation wavelengths on one spot. While the RamanScope III optimally circumvents unwanted fluorescence, Bruker’s SENTERRA II capitalizes on heightened scattering efficiency. This, combined with the CCD-based detection, guarantees unmatched sensitivity and rapid spectra acquisition by Bruker.
Experience the power of both dispersion and FT-Raman microscopy in a singular device, encapsulated in the RamanScope III by Bruker.
Specifically designed for analyzing liquids, these cells come with multiple constructional materials, varying path lengths, and adaptable heating and flow options.
Bruker offers an expansive selection of meticulously designed sample stages and holders, ensuring optimal sample fixation for a myriad of spectroscopic measurements. Engage with our knowledgeable support team to identify the most suitable option tailored to your specific needs.
Bruker’s expansive range of Raman measurement probes, both for the laboratory and the field, are tailored to the exact needs of the user. Options with integrated video cameras are also available.
Software-controlled heating devices.
Bruker understands that as the laser wavelength augments, Raman scattering intensity typically diminishes, along with the fluorescence excitation risk. Thus, Bruker provides the flexibility to utilize a broad spectrum of excitation lasers within a single device.