RAMANtouch
RAMANtouch rethinks Raman imaging. With patented line-shaped laser illumination and galvanometer-based scanning, it achieves the world’s fastest high-quality Raman imaging—hundreds of thousands of pixels mapped in minutes without compromising spectral or spatial resolution. This speed, combined with confocal optics for true 3D imaging, makes RAMANtouch a game-changer for advanced materials, life sciences, and semiconductor res…
The supplier does not provide quotations for this product through SelectScience. You can search for similar products in our Product Directory.
- Made for Fast Raman Imaging: Three innovative laser modes (Laser Line, RandomWalk, AreaFlash).
- Completely Automated Hardware: Auto-calibration and auto-alignment for effortless operation.
- Powerful Analysis Tools: Advanced software for spectral interpretation and imaging workflows.
- Confocal Optics: Non-destructive 3D Raman imaging of transparent samples.
- High Spectral & Spatial Resolution: Down to 350 nm with 532 nm excitation and 0.90 NA objectives.
- Laser Safety Class 1 housing for secure operation.
TechTalk: Advancing energy storage with spectroelectrochemistry
Thursday, February 5 at 18:00 GMT | 19:00 CET | 13:00 EST | 10:00 PST
Developing next‑generation energy storage systems demands a deeper, more precise understanding of electrochemical behavior, including how to optimize electrode composition and ensure chemical homogeneity throughout the electrode structure. Combining electrochemistry with Infrared and Raman spectroscopy offers a powerful approach for achieving these goals. Pairing these techniques with microscopy further enables micrometer-scale insights into chemical composition and distribution.
This 20-minute TechTalk will explore how these capabilities come together with four key instruments that make this integrated approach possible: INVENIO, RAMANtouch, HYPERION II and VERTEX NEO R.
Join Dr. Sergey Shilov, Senior Application Scientist, Bruker Optics, as he shares his 40+ years of FTIR and Raman knowledge to inspire and accelerate your research in batteries, fuel cells, and advanced energy materials.
Key learning objectives:
- Understand spectroelectrochemical tools and workflows for probing reactions at electrodes and within electrolytes.
- Learn how to optimize instrument setup and integration, including effective communication between potentiostats and spectrometers.
- Understand how to apply fast chemical imaging techniques to visualize electrode surfaces and reaction dynamics.
- Explore real‑world electrochemical case studies such as metal–organic complex oxidation, polymer distribution mapping, electrode degradation analysis, and SEI characterization in lithium metal batteries.
Who should attend?
- Chemists, battery engineers, and scientists who are developing new materials for energy storage.
Certificate of attendance
If you attend the live TechTalk, you will automatically receive a certificate of attendance, including a learning outcomes summary, for continuing education purposes.
If you view the on-demand TechTalk, you can request a certificate of attendance by emailing editor@selectscience.net.
