Raman Research Solutions
From high performance confocal Raman microscopes to tailor-made solutions and hyphenations, we have been supporting research endeavors since 1968!
HORIBA Scientific is the world leader in Raman spectroscopy, with the benefits of more than 50 years of innovation in the technique. Raman microscopy is a technique which allows fast, non-destructive chemical analysis of solids, powders, liquids, and gases – today, Raman spectroscopy is used in many varied fields, from fundamental research up to applied solutions.
We provide complete Raman spectroscopy solutions for analytical measurements, research Raman, UV Raman, QC/QA and industrial Raman applications. These include Raman spectrometers, hybrid Raman systems (such as AFM-Raman), modular Raman systems, transmission Raman analyzers, dedicated in situ process Raman spectrometers, and miniaturized Raman instruments for high volume OEM manufacturers. Our Raman spectroscopy instruments are used in prestigious universities, research laboratories, in demanding industries with production lines across the world, and are well-known for:
With SmartSampling™ discover a revolutionary mapping approach for samples unsuitable for ultra-fast scanning methods which rely on high signal and high laser powers. Using an advanced image compression algorithm, HORIBA's patented technology results in high spatial resolution Raman images with all the detail acquired in a fraction of the time. Its non-linear mapping motion gets the detail quickly, focusing on what matters, and ignoring what doesn’t.
SmartSampling point-by-point mapping runs up to a 100 times faster, without losing the detail. You have to see this to believe it.Watch the video
Get expert level images with just one click. EasyImage is more than a software function, it is your new laboratory partner. Just focus on your sample, then EasyImage will optimize the image acquisition parameters. If you only want to map a specific area, no problem. Simply select it on the video image, obtain a preview and then get your Raman image with chemical characterizationWatch the video
Raman microscopy is one of the most powerful techniques to analyze and characterize even the smallest microplastic particle. Therefore, it becomes an invaluable technique in understandingthe origin of contaminants and their consequences on environment and health.
In addition to offering powerful Raman Microscopes, i.e. LabRAM Soleil™ and XploRA PLUS, HORIBA provides a full analysis solution for microplastics, ranging from sample preparation, through data acquisition down to data treatment and reporting for a complete morphological and chemical characterization of microplastics.Read more about Microplastics Analysis
Due to Covid-19, a wide choice of protective masks are now on the market. These types of masks are distinguished, in particular, by their different efficiencies linked to their filtration capacity. These differences in protective properties have therefore made it essential to characterize the composition of the masks. In this paper, we present why LabRAM Soleil™ confocal Raman multimode microscope is the perfect tool for studying the distribution and composition of mask fibers.Read more
An imaging platform that combines Raman microscopy with enhanced darkfield and hyperspectral imaging technology was used to study lung tissue sections containing carbon nanotubes. It enabled easy identification of the regions containing the carbon nanotubes followed by spectroscopic characterization of chemical composition.Read more
In this webinar, the technique of particle correlated Raman spectroscopy (PCRS) will be presented, and will be illustrated by representative application examples from fields including forensics, pharmaceuticals/cosmetics, and microplastics. Included will be a discussion of handling and preparation of a variety of sample types including powders, tablets, and suspensions.Read more
The result of 50 years of expertise in Raman spectroscopy, LabRAM Soleil™ offers unprecedented capabilities for Raman multimodal confocal imaging, in a compact footprint.
Due to the high level of automation implemented, high optical throughput, objective recognition, motorized switching mirrors, ultra-fast mapping capabilities with SmartSampling™ and QScan™, fast motorized 4-grating turret, high speed auto-alignment and new options offered by the LabSpec 6 software suite, the LabRAM Soleil™ is ready to work 24 hours a day with minimal human supervision.Read more
HORIBA Raman confocal microscopes use a variety of research grade upright, open space and inverted microscopes from different vendors, including Olympus and Nikon. This technical note describes the available options and explains their typical use, assisting the selection of relevant options at the time of order or for future upgrade.Read more
In order to overcome limitations in spectral range offered by standard dielectric mirrors, HORIBA developed a customized dielectric mirror for the LabRAM Soleil™, the new Confocal Raman Multimode Microscope.
Discover more unique features of LabRAM Soleil™Read more
In this article, we present how our Raman and X-Ray Fluorescence microscopies can be combined to shed some light on the origins of the universe. We show some examples on a meteorite piece and on water inclusion in quartz matrix.Read more
QScan™, a patented unique feature of LabRAM Soleil™, generates highly homogeneous laser lightsheet, enabling non-destructive confocal slicing of multilayer samples. It enables mapping without moving and true point-and-shoot operation, when one can directly acquire a spectrum by clicking anywhere in the video image.
Discover more unique features of LabRAM Soleil™
Spectral resolution is one of the most important factors to think about when acquiring a Raman spectrum. Defined as the wavenumber, wavelength, or frequency difference
of two still distinguishable lines in a spectrum, spectral resolution requirements vary depending on the information one would like to obtain.
Segmented channel waveguides have been fabricated in single crystal KTiOPO4 through a topotactic process of partial cation exchange. The ion-exchanged waveguides maintain the high nonlinear susceptibility of KTiOPO4 to function as frequency doubling laser light sources. We apply three dimensional (3D) Raman imaging to understand and characterize the changes to the chemical bonding and crystalline structure as well as measure the volumetric structure of the waveguide segments.Read more
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