APPLICATIONS | CARBON-BASED MATERIALS

APPLICATION NOTES          RELATED PRODUCTS


Carbon has attracted a great deal of interest in the scientific community due to the discovery of several allotropes (i.e., fullerenes, carbon nanotubes, graphene). Carbon-based nanomaterials demonstrate unprecedented physical and chemical properties such as high strength, excellent resistance to corrosion and exceptional electrical and thermal conduction and stability. Because of these unique features, nano-carbon materials are used in a wide range of fields, including biology, energy storage and medicine. However, despite numerous advances in the past decades, researchers still face challenges regarding the synthesis, uniformity and reproducibility in the growth of carbon materials. To overcome these issues, and to be able to develop new applications of this material, specific and rigorous characterization is primordial.

A technique often used to analyze carbon nanomaterials is Raman scattering. Since Raman spectroscopy can be used to study vibrational states, it provides direct information on the structural properties of a given sample. Photon etc. uses the intrinsic specificity of Raman scattering combined with the speed of global imaging in RIMA™, a state-of-the-art non-invasive instrument that expands the horizons of traditional sample analysis. With outstanding speed, sensitivity and resolution, RIMA™ provides large maps (hundreds of microns and more) of defects, number of layers, uniformity, population distribution, impurities and stacking order of your carbon based materials.


For more details and results from our collaborators, see the application notes bellow.

APPLICATION NOTES

RELATED PRODUCTS

RIMA™ NANO

The perfect Raman imager for the analysis of nanomaterials, RIMA NANO  is a state-of-the-art ultrafast hyperspectral imager available at excitation wavelengths of 532 nm, 660 nm and more.

RIMA™  BIOMED

The tool of choice for non-invasive monitoring and analysis of biological tissue, RIMA BIOMED is a cutting edge hyperspectral Raman imager for biomedical sciences, available at an excitation wavelength of 785 nm.

TUNABLE LASER SOURCE

Our turn-key sources unite the flexibility of supercontinuum light sources to the incomparable out-of-band rejection of our optical filters, allowing easy and precise sample excitation or instrument calibration.

RAMAN LABELS

PhotonNano, a new division of Photon etc., offers Raman labels based on carbon nanotubes to empower your multiplexing applications. Dyes encapsulated in carbon nanotubes (Dyes@CNT) exhibit a very strong Raman scattering signature.