The growing of semiconductor materials industrialization requires technologies to characterize their properties. Optical microspectroscopic platforms like Raman microscopes offer both physical and chemical information in one system. Thus, process qualification, wafer uniformity assessment, or defects inspection of wafers can be achieved with Raman microscopy. These can also be applied to new materials characterization.

In this webinar, we will highlight how Photoluminescence and Raman microscopies can address semiconductor challenges. We will also show how the combination of micro-spectroscopies with AFM (Atomic Force Microscopy) can provide nano resolution and deeper understanding of these structures.

Carbon materials are crucial due to their widespread application in industries like energy storage. Analyzing carbon helps ensure material quality and performance. However, its structural complexity and variability, such as the presence of defects and morphological disparities, pose challenges, making precise analysis difficult.

Standard spontaneous Raman scattering effect is limited by its sensitivity. Different strategies are set in place to improve the sensitivity and the mapping speed based on different physical phenomena. These approaches resulted in the development of Stimulated Raman Spectroscopy (SRS), Coherent Anti-Stokes Raman Spectroscopy (CARS), Resonant Raman spectroscopy, etc., each of which have advantages and limitations.

During this webinar, we will present the concept of these different techniques, and discuss their benefits and concerns.

Microplastics are becoming the 21st century environmental scourge. To control it, more and more regulations are being set in all countries worldwide to monitor the amount of microparticles released in the environment. Thus, some techniques have been identified as reference methods: Pyrolysis GC-MS, Infrared microscopy, and Raman microscopy. This last one provides the best combination of information in both morphological and chemical characterization of each particle down to the micron.
During this webinar, we will present how Raman microscopy is becoming the best reference method for microplastics characterization.

In this webinar, explore how Raman microscopy can be used to identify and characterize microplastics and nanoplastic samples through examples such as hand sanitizer. Plus, gain an overview of the latest HORIBA Scientific solution software: Particle Finder™.

Raman microscopy is the combination of the Raman effect and optical microscopy. A Raman microscope is the association of multiple components where each of them is playing a specific role to achieve highly resolved and sensitive measurements.
During this webinar, we will present the role of each component of a Raman microscope and detail their characteristics and limits.

In this webinar, explore how Raman microscopy can be used to identify and characterize microplastics and nanoplastic samples through examples such as hand sanitizer. Plus, gain an overview of the latest HORIBA Scientific solution software: Particle Finder™.

In this webinar, explore how Raman microscopy can be used to identify and characterize microplastics and nanoplastic samples through examples such as hand sanitizer. Plus, gain an overview of the latest HORIBA Scientific solution software: Particle Finder™.

Particulate matter poses a growing threat to air quality and public health. To effectively understand the effects and assess the hazardousness of particles, it is necessary to study them on a molecular level. Raman spectroscopy emerges as an effective method for revealing the chemical composition of airborne particles at the microscopic scale.

This Raman XPerience article reviews a selection of user's papers on this topic.

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In this webinar, explore how Raman microscopy can be used to identify and characterize microplastics and nanoplastic samples through examples such as hand sanitizer. Plus, gain an overview of the latest HORIBA Scientific solution software: Particle Finder™.

In this study we have chosen to investigate pyrite and its surrounding minerals in order to identify the different mineral phases as well as the chemical variations from micro- to nano-scale. Using the different microscopes instruments and being co-localized allows a comprehensive characterization of the sample and a precise superimposition of all the images.

In this webinar, explore how Raman microscopy can be used to identify and characterize microplastics and nanoplastic samples through examples such as hand sanitizer. Plus, gain an overview of the latest HORIBA Scientific solution software: Particle Finder™.

In this webinar, explore how Raman microscopy can be used to identify and characterize microplastics and nanoplastic samples through examples such as hand sanitizer. Plus, gain an overview of the latest HORIBA Scientific solution software: Particle Finder™.

In this webinar, explore how Raman microscopy can be used to identify and characterize microplastics and nanoplastic samples through examples such as hand sanitizer. Plus, gain an overview of the latest HORIBA Scientific solution software: Particle Finder™.

In this webinar, explore how Raman microscopy can be used to identify and characterize microplastics and nanoplastic samples through examples such as hand sanitizer. Plus, gain an overview of the latest HORIBA Scientific solution software: Particle Finder™.

In this webinar, explore how Raman microscopy can be used to identify and characterize microplastics and nanoplastic samples through examples such as hand sanitizer. Plus, gain an overview of the latest HORIBA Scientific solution software: Particle Finder™.

The International Conference on Advanced Applied Raman Spectroscopy (RamanFest2022) will feature presentations from world-leading Raman experts and researchers using the technique across varied applications within life science, materials science, and energy and environmental analysis. It will bring together the world's Raman community to share, learn and discuss how Raman spectroscopy is being applied to today's problems and pioneering tomorrow's capabilities.

Hear three experts in the field of Raman Spectroscopy discuss Raman, SERS and TERS for 2D materials.

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.