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Hyperspectral Raman Microscopy

Photon etc Hyperspectral Raman Microscopy System

RIMA™ Raman Imager

The global hyperspectral Raman imager (RIMA™) developed by Photon etc offers a unique solution for rapid spectral and spatial characterization of advanced materials over large areas (up to 1mm2 and more). By combining this rich information obtained from Raman spectroscopic fingerprints with the speed of global hyperspectral imaging, RIMA™ extends the limits of sample analysis and is a powerful non-invasive imaging modality for materials (RIMA™ NANO) and biomedical (RIMA™ BIOMED) sciences.

The perfect Raman imager for the analysis of nanomaterials from graphene to carbon nanotubes, RIMA™ is a state-of-the-art ultrafast hyperspectral imager available at excitation wavelengths of 532 nm, 660 nm and others. For the non-invasive monitoring and analysis of biological tissue, RIMA™ is a cutting-edge hyperspectral Raman imager for biomedical sciences, available at an excitation wavelength of 785 nm.

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KEY CHARACTERISTICS:

  • Fast global mapping (non-scanning)
  • Megapixel images in minutes
  • Stokes and anti-Stokes Raman signals
  • High spatial and spectral resolution
  • Non-destructive analysis
  • Complete system (source, microscope, camera, filter, software)
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Applications

GRAPHINE CVD ON COPPER

RIMA™ is used to thoroughly evaluate the structural properties of graphene grown in different condition. The intrinsic specificity of Raman scattering combined with global imaging capabilities allows users to assess large of defects, number of layers and stacking order.

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SWNT BREATHING MODES

Two narrowband tunable filters for resonance Raman spectroscopy (RRS) were designed to study the radial breathing modes of carbon nanotubes.

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Si/Ti WAFER MAPS

RIMA™ was tested with a Si substrate where a pattern of Ti has been deposited. We clearly observe the main Raman mode from the Si substrate whereas no signal is coming from the Ti pattern.

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RAMAN MULTIPLEXING

Because of its high throughput, RIMA™ allows the acquisition of spectrally resolved maps of large area samples, without damaging the surface.

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MONO & BILAYER GRAPHINE

Investigation of CVD monolayer graphene with bilayer island is performed with RIMA™. Large area maps of defects, number of layers and stacking order is used to rigorously study the  growth conditions.

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CNT IN YEAST

Global Raman imaging is an exceptional technique for the analysis of large surfaces of thin films and advanced materials. Its rapidity makes it a great tool not only for universities and research institutes, but also for industrial laboratories.

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