DXR Nanocarbon Analysis Package

DXR_SERS Analysis Package

Practical Applications of Surface-Enhanced Raman Scattering (SERS)

Raman Mapping of Single-walled Carbon Nanotube Distribution on Phase Separated Polystyrene and Polymethylmethacrylate

Technical Reference Chart for Common Calculations Involving Raman Measurements with Carbon Nanomaterials

The Triplet Spectrograph– Spectrograph Design for the DXR Microscope and SmartRaman Spectrometers

Analysis of Multi-Layer Polymer Composites Poster. Complementary Use of Raman and FT-IR Imaging for the Analysis of Multi-Layer Polymer Composites

Application of Automated Data Collection to Surface-Enhanced Raman Scattering (SERS). Application Note 52020. This application note discusses the use of automated collection and analysis for SERS and introduces the capabilities for high throughput, multi-sample…

Back to Basics Presentation. Back to Basics: Fundamentals of Polymer Analysis Using Infrared & Raman Spectroscopy

Building Better Batteries: Raman Spectroscopy – An Essential Tool for Evaluating New Lithium Ion Battery Components Presentation. Examples of the use of Raman spectroscopy for the analysis of battery components

Calibrationless Semi-Quantitative Analysis of a Heterogeneous Sample Application Note 51184. Microscopy is frequently used to assess the microheterogeneity and identify components in solid samples.

Characterization of Amorphous and Microcrystalline Silicon using Raman Spectroscopy Application Note 51735. The DXR Raman microscope, which is equipped with a laser power regulator, is ideal for this application, particularly if the method has to be replicate…

Characterization of Polymer Blends Using a Combined Raman-AFM Microscope AN52664. Atomic force microscopy and Raman spectroscopic mapping provide complementary topological, mechanical and chemical information that is crucial to understanding the ch…

Characterizing Carbon Materials with Raman Spectroscopy Application Note 51901. Every lab that is characterizing carbon nanomaterials will benefit from having access to Raman instrumentation.

Characterizing Graphene with Raman Spectroscopy Application Note 51946. The DXR Raman microscope is an ideal Raman instrument for graphene characterization providing the high level of stability, control, and sensitivity nee…

Confocal Raman Microscopy Analysis of Multilayer Polymer Films Application Note 51718. Confocal Raman Microscopy Analysis of Multilayer Polymer Films

Confocal Raman Microscopy Applications in the Polymer Industry Application Note 50832. In any Raman application, the analytical signal is strongest from the point where the laser reaches a tight focus.

Customs and Border Protection

Ex Situ Raman Analysis of Lithium Ion Batteries The needs of the Li-ion battery customers can be segmented into in situ and ex situ modes of analysis. Ex situ analysis lets researchers study battery components removed from …

FTIR and Raman: Complementary Technologies for First Responders Technical Note 101B. FTIR and Raman: Complementary Technologies for First Responders.

Graphene Analysis Presentation. Raman Imaging: A Critical Tool for Realizing Graphene and Graphene Composite Materials

Graphene Protective Coating Capabilities Investigated by Raman Imaging Graphene has demonstrated exceptional barrier properties, being impenetrable to even helium. Coupled with the fact that the material is also optically transparent this behavio…

Identification of Synthetic Cathinones Application Note 201. Identification of Synthetic Cathinones.

In situ Raman Analysis of Lithium Ion Batteries The needs of the Li-ion battery customers can be segmented into in situ and ex situ modes of analysis. In situ analysis allows researchers to follow changes in a battery cell …

In-Depth Focus Raman Roundtable

Investigating Composite Materials Utilizing a Combined Raman-Atomic Force Microscope AN52670. This application note discusses the characterization of a composite material using fully integrated Raman-AFM instrumentation.

Measuring Diamond-like Carbon Films by Dispersive Raman Spectroscopy Application Note 50836. Raman spectroscopy has proven to offer the best combination of chemical information and ease of sampling.

Molecular Spectroscopy: Polymer Analysis Presentation: Molecular Spectroscopy: Polymer Analysis Using FTIR, NIR and Raman

Polymer Analysis from Raw Material to Formulation Presentation. Polymer Analysis from Raw Material to Formulation: Using the Nicolet iS50 FT-IR Spectrometer

Raman Analysis of Lithium-Ion Battery Components: Anodes AN52444. Raman spectroscopy has emerged as an important analytical technique that can be used for the characterizing of a variety of battery components.

Raman Analysis of Lithium-Ion Battery Components: Cathodes AN52443. This application note illustrates how Raman spectroscopy can be used for the study of cathode materials.

Raman Analysis of Lithium-Ion Battery Components: Electrolytes AN52445. Previous application notes have provided examples of how Raman spectroscopy can be used for the analysis of cathode and anode materials. Here that coverage is expande…

Raman Imaging for Visualizing Structural Variations in Advanced Materials Presentation. Raman imaging applications.

Rapid Quality Screening of Carbon Nanotubes with Raman Spectroscopy Application Note 51947. Every lab that is interested in monitoring the quality of carbon nanotubes will benefit from having access to a DXR Raman instrument.

Rapid Screening of Semiprecious Gemstones by Raman Spectroscopy Application Note 51737. Raman spectroscopy is non-destructive, requires almost no sample preparation and is exquisitely sensitive to crystalline structure and the presence of …

The DXR Raman Microscope for High-Performance Raman Microscopy Application Note 51569. One of the key benefits of dispersive Raman microscopy is its excellent spatial resolution.

The Importance of Tight Laser Power Control When Working with Carbon Nanomaterials Application Note 51948. DXR Raman systems are equipped with a unique device called a laser power regulator with a gradient-neutral density filter that can be adjusted with hig…

The Raman Spectroscopy of Graphene and the Determination of Layer Thickness Application Note 52252. Raman spectroscopy can be employed to provide a fast, nondestructive means of determining layer thickness for graphene thin films.

The Use of Variable Dynamic Point Sampling to Analyze Non-Homogeneous Samples Application Note 51559. Most tablets are non-homogeneous and consist of particles that are larger than the excitation laser spot, leading to considerable variability in the Ra…

Understanding the Lithium Ion Battery Presentation. From Surface to Cell: Understanding the Lithium Ion Battery

Use of the DXR Raman Microscope to Generate a Micron-Level Map of an Amethyst Sample Application Note 51560. Dispersive Raman spectroscopy is a powerful analytical tool that is capable of identifying a broad range of compounds and is used in a number of indust…

Use of the DXR SmartRaman Spectrometer for Quantitative Analysis of Solvent Mixtures Application Note 51558. The DXR SmartRaman spectrometer is designed to be reliable and reproducible and to accept a broad range of sample configurations