TERSsense Raman Microscope

TERSsense Raman Microscope

TERSsense opens up the unexplored nano-Raman world with a spatial resolution beyond the diffraction limit

TERSsense opens up the unexplored nano-Raman world with a spatial resolution beyond the diffraction limit

TERSsense Raman MicroscopeTERSsense opens up the unexplored nano-Raman world with a spatial resolution beyond the diffraction limit

TERSsense

TERSsense microscope combines laser Raman microscope and atomic force microscope (AFM).

Going beyond the diffraction limits, TERSsense can image and analyse a wide range of materials like thin films, inorganic nano-structures and biological materials with nano-scale spatial resolution.

Analytik delivers Raman microscopes to the UK and Ireland from Nanophoton.

We will be happy to work together with you on a solution with the full support of the Nanophoton team. Visit our contact page, request a quote, or call us on +44 (0)1954 232 776.

Product Description

TERSsense

Tip-enhanced Raman scattering microscope

Nano-Raman world observed by TERSsense

TERS image of CNTs and spatial resolutionSmall structure of Carbon Nanotubes and Graphene can be observed with TERSsense. The G-band intensity profile along white dotted line in the TERS image of CNTs demonstrates a spatial resolution of up to 14 nm. In the images of graphene, the distribution of armchair-edge is clearly observed. TERSsense opens up the unexplored nano-Raman world with a spatial resolution beyond the diffraction limit.

Key Features:

Tip-enhanced Raman scattering microscope TERSsense developed by Nanophoton is derived from the technology transfer from Prof. Kawata’s laboratory and Photonics Center of Osaka University. Utilising the fabrication technology of probes developed by Kawata lab, TERSsense guarantees the enhancement of Raman light and high reproducibility of TERS measurement. Every probe is inspected before shipping and delivered to you with performance guarantee. In contrast to a gap-mode arrangement, there is no need to have a sample sandwiched between a metal probe and a metal-coated substrate. Also the adoption of transmission configuration of TERSsense makes it possible to implement extremely sensitive measurement with the utilisation of a high NA(1.40) objective lens.

What is the tip-enhanced Raman scattering (TERS) microscope?

Enhanced electric fieldTip-enhanced Raman scattering (TERS) microscope provides infinitely higher spatial resolution beyond the diffraction limit. TERS microscope combines laser Raman microscope and atomic force microscope (AFM) equipped with a cantilever probe coated by metal. The metal nano-structure at the tip of probe enhances Raman scattered light locally and as a result, nanometer spatial resolution can be obtained.

Technical Specifications:

TERSsense
Laser488 nm
Size (W × H × D)826 mm × 636 mm × 843 mm
Weight104 kg

Request a quote for the TERSsense or call on UK: +44 (0)1954 232 776 / IE: +353 (0)144 751 70.

Whitepapers

PDF Icon Tip-enhanced nano-Raman analytical imaging of locally induced strain distribution in carbon nanotubes

PDF Icon Pressure-assisted tip-enhanced Raman imaging at a resolution of a few nanometres

PDF Icon Plasmonics for near-field nano-imaging and superlensing

PDF Icon Subnanometric Near-Field Raman Investigation in the Vicinity of a Metallic Nanostructure

PDF Icon Tip-Enhanced Coherent Anti-Stokes Raman Scattering for Vibrational Nanoimaging

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