HORIBA

Silicon carbide’s hardness, strength, and thermal stability make it ideal for abrasives and armor. Particle size analysis ensures optimal performance and precision.

Raman spectroscopy reveals structural changes in protein formulations, helping assess stability in high-concentration biotherapeutics for safer drug delivery.

HORIBA’s ParticleFinder™ with the XD 100 Disperser streamlines Raman mapping of carbon particles, enabling rapid size, shape, and chemical characterization in one workflow.

Raman spectroscopy enables both qualitative and quantitative analysis, shown here for solutes in solution and pharmaceutical mixtures, with linear calibration.

This study showcases PCRS as a powerful method for combining particle analysis and chemical ID, offering insight into drug performance across dosage forms.

Raman microscopy and HORIBA’s Layers app reveal chemical and spatial data in multilayer films, supporting defect detection, adhesion checks, and reverse engineering.

Raman microscopy supports polymer research by characterizing raw materials, monitoring polymerization, analyzing crystallization, and ensuring quality and traceability.

Analyze battery materials with precision using particle size and shape analysis alongside Raman spectroscopy to reveal structure, composition, and performance insights.

Webinar Date/Time: Thursday, February 27th at 2:00 PM EST

High structural selectivity of Raman, with spectral & spatial resolution & non-destructive nature of Raman make it ideal as a standard characterization tool in the growing field of graphene.

Nano-characterization of 2D transition metal dichalcogenides materials which are considered of very high potential semiconductors for future nanosized electronic and optoelectronic devices

Focus on the approach of HORIBA group towards analysis and method development of MPs and NPs.

Characterization of carbon materials is crucial in various industries, particularly for ensuring quality of Li-ion batteries. Explore the background & challenges with traditional analysis.

“2-in-1” application of HORIBA micro-XRF for proton exchange membrane fuel cell (PEMFC) catalyst research.

Raman spectroscopy, Photoluminescence and SEM-CL techniques, where the instruments weren’t physically connected

A reverse engineering study on a bipolar plate from a commercial vehicle using GD-OES & Raman spectroscopy. The analyses revealed the plate had an amorphous carbon coating on a titanium base plate.

Multilayer polymer films, composed of different materials, are used in a variety of industrial applications.

Webinar Date/Time: Tue, Dec 10, 2024 2:00 PM EST

Using confocal Raman microscopy, the layer identification of multilayer polymer film can be made by cross-section analysis or by confocal depth profiling.

How HORIBA Raman microscopy solutions can support the polymer chemical and structural understanding

Pt Loading Mass Determination of PEMFC Catalyst Sheet Using a Benchtop EDXRF Analyzer

HORIBA micro-XRF performs 2 applications for PEMFC catalyst research: Pt catalyst uniformity imaging and Pt catalyst loading mass determination on average.

Webinar Date/Time: Thursday, September 26, 2024 Morning Session: 10:00 AM EDT | 7:00 AM PDT | 3:00 PM BST | 4:00 PM CEST Afternoon Sesson: 12:30 PM EDT | 9:30 AM PDT | 5:30 PM BST | 6:30 PM CEST

Webinar Date/Time: Thu, Dec 7, 2023 1:00 PM EST

In this application note, Raman spectroscopy is explored as an easier and more flexible technique for quantifying common components in a CMP slurry, such as benzotriazole and glycine, without any sample preparation or costly consumables.

the MacroRAM benchtop Raman spectrometer with remote BallProbe® is used to quickly identify plastics used in various gillnet samples. Raman spectroscopy is demonstrated to be an excellent technique for identifying not only different types of polymers, but also different variants within a polymer class and additives including pigments.

Raman can be an effective method for quantitative analysis under a variety of conditions involving different solutes in a solution and solution mixtures. In this application note, we demonstrate Raman spectroscopy and its application to pharmaceutical analysis such as content uniformity.

In this work, we monitor and analyze a simple polymerization-curing reaction of a two-part epoxy using a macroscopic Raman system along with a non-contact remote Raman probe.

This technical note will show how the HORIBA MacroRAM™, a macroscopic Raman system, can be used along with the HORIBA Superhead™, to monitor and analyze a simple polymerization-curing reaction of a two-part epoxy.

Tuesday May 24th 2022 2 pm EDT | 11 am PDT | 8 pm CET | 6 pm GMT Rapid spectroscopic analysis of cannabinoids in under a minute! Eliminate the high cost of consumables using A-TEEM as a substitute for chromatography.