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TERS Solution Shows Immediate Results After Installation

HORIBA Scientific

Joint HORIBA and AIST-NT Solution Provided Spatial Resolution below 15 nm

4 Jan 2016
Lois Manton-O'Byrne, PhD
Executive Editor

Industry news

HORIBA Scientific, global leader in Raman spectroscopy solutions, and AIST-NT, manufacturer of advanced SPM systems designed specifically for integration with optical spectroscopy, deployed their joint solution at Oak Ridge National Laboratory, in the US, in collaboration with the Technische Universität Chemnitz, Germany.

Figure: GO, SWCNTs and fullerenes C60 co-deposited on gold. (a) Combined TERS map 4x4 μm, 128 pixels per line, 100ms
per pixel. Individual maps showing the distribution of components, (b) graphene oxide, (c) fullerenes C60, (d) CNTs. All
carbon species can be detected and resolved.

The data presented in a recent publication was recorded during the installation of the equipment in Professor Sokolov's group at Oak Ridge. The authors demonstrate the TERS chemical imaging of the individual components in a four-carbon-allotropes sample: single-wall carbon nanotubes (CNTs), graphene oxide (GO), C60 fullerenes, and an organic residue by the by the presence of corresponding characteristic Raman peaks.

TERS with spatial resolution below 15 nm allowed the analysis of:

  • Localized changes of defect concentration in graphene and graphene oxide
  • Organic residue adsorption on graphene and graphene oxide
  • Doping and defect in carbon nanotubes and their diameter estimation.

HORIBA Scientific and AIST-NT are proud to have these authors as customers and colleagues and are especially grateful to Dr. Rodriguez, of Professor Zahn's group, for shepherding this work through the publishing process.

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Raman SpectroscopyRaman spectroscopy is used to discern the vibrational and rotational states of molecules and hence the chemical composition of a sample by measuring the inelastic scattering of monochromatic light. Explore a range of Raman spectrometers, including handheld/portable Raman spectrometers for QC/QA labs and in situ spectrometers for processes. Conduct Raman imaging for microanalysis of mixed samples using a Raman microscope. Raman spectrographs are also available. Find the best Raman spectroscopy products in our peer-reviewed product directory: compare products, check customer reviews and receive pricing direct from manufacturers.Particle CharacterizationParticle characterization instruments are used to determine particle size distribution, shape, surface area, zeta potential, density and porosity of particles and materials. Multiple tecchniques are available for determining particle size, shape and count including dynamic light scattering (DLS), laser diffraction, electrozone (Coulter technique), imaging particle analysis and single particle optical sensing. Determine the density of your material with a gas pycnometer or examine its surface area and porosity with gas adsorption analyzers and mercury porosimeters. Find the best particle characterization instruments in our peer-reviewed product directory: compare products, check customer reviews and receive pricing direct from manufacturers.Non-Destructive TechniquesNon-destructive techniques (NDT) describes a variety of analytical techniques used to evaluate the properties of a material. Common methods include ultrasonic, magnetic-particle, liquid penetrant, radiographic, remote visual inspection (RVI), and eddy-current testing. NDT is regularly used in forensic engineering, civil engineering, mechanical engineering, electrical engineering, systems engineering, aeronautical engineering, and medicine.Digital ImagingDigital imaging is a technique that captures images of biological and chemical samples in high resolution, often using advanced cameras and sensors. This technology is crucial in microscopy, diagnostics, and quality control. Explore digital imaging systems in our peer-reviewed product directory; compare products, check reviews, and get pricing directly from manufacturers.NanoparticlesNanoparticles are between 1-100nm in size. Nanoparticles can be used for a wide variety of applications including biomedical, catalysis and electronics.GrapheneGraphene is a two-dimensional structure that comprises of a hexagonal honeycomb lattice of carbon atoms. Graphene can conduct electricity and heat, is almost transparent and is 100x stronger than steel by weight.

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TERS Solution Shows Immediate Results After Installation