Raman at the speed you need
The new DXR3 Raman family brings Raman analysis at the speed researchers need with advanced imaging capabilities like particle analysis, 3D visualization software and improved stability with automatic x-axis calibration. Expanded offerings of lasers and cameras improve application flexibility. Researchers in pharmaceutical, polymer/chemical, academia, microplastics and other material science applications will move from sample to answer faster while enjoying minimal sample prep and ease of use that make Raman a top analytical technique.
- Ultra-fast chemical imaging that speeds scientific investigations
- Ideal for multi-user research facilities
- Minimize etaloning with new front illuminated EMCCD configuration
- Instant information with 3D visualization software
- New advanced particle analysis workflow for automated microparticle location and identification
- Built for dedicated bulk sample analysis
- Designed for busy, multi-purpose analytical labs
- Offers best-in-class sampling versatility with multiple sampling accessories for your bulk analysis needs
- Improved reliability and efficiency with automatic x-axis calibration
- Designed specifically for integration and multi-modal analysis with other analytical techniques
- Enables easy to implement correlated analysis
- Eliminates time consuming and difficult secondary measurements
- Efficient design offers portability for field / mobile laboratories
With minimal sample preparation pharmaceutical customers can employ Raman in several stages of their workflow; formulation and development or quality control. Raman can quickly identify chemical structure to pin-point defects/contaminants and maintain product consistency.
- Rapid imaging for API distribution analysis
- Non-destructive analysis for minimal sample preparation
- Options for bulk sampling
- Identification of isomers, hydrates and polymorphs
- Verified reliability and stability of analysis
Webinar: Pharmaceutical Analysis with FTIR, Near-IR, Mid-IR and Raman in a Compact Platform
Desirable properties of consumer products are in a constant state of evolution requiring researchers and manufacturers to be three steps ahead. As such, polymer compound researchers are demanding tools that quickly identify failure modes, material distribution and material properties in complex compounds. Raman spectroscopy is capable of probing layered materials non-destructively, informing researchers on the structure and crystallinity of compounds, and offering spatial resolution below 1μm.
- Visualization of 3D confocal spectral data
- Quickly understand multi-layer samples at high resolution
- Obtain data on structure and crystallinity
Researchers using multiple instruments or shared labs need to be experts in their application but can’t be experts in analytical techniques. With the DXR3 Raman family of instruments, you can use Raman spectroscopy, microscopy, and imaging to advance your knowledge and reputation in your own field of work without mastering a new scientific technique. This family of instruments does not require an expert to set up the instrument, collect data or interpret the results.
- Raman expertise is not required
- Reliable performance drive by user-initiated internal automated alignment and calibration
- Employed by shared labs for pharmacy, geology, materials science, life sciences, and chemistry
Raman analysis of semiconductor materials enable researchers and manufacturers to quickly analyze the behavior of new components and materials. The ability of Raman to detect stress in materials allows for quick and effective defect analysis – vital for electronics manufacturers trying to improve yield and reliability of products. The DXR3 Raman family offers a broad range of options to support the needs of electronics researchers and manufacturers from early-stage research to QA/QC.
- Reliable performance driven by user-initiated internal automated alignment and calibration
- Quickly understand thin film samples at high resolution
- 2D and 3D correlation imaging to quickly visualize spectral data and inform customer decisions
- Eliminate manual steps with automatic x-axis calibration
The complex nature of batteries requires a multi-faceted combination of electro chemical analyses and materials characterization techniques. Raman spectroscopy has emerged as an important analytical technique that can be used for the characterizing for a variety of battery components. Battery researchers and developers need to understand the structural and material changes of battery components in order to optimize rate capability, distance on charge, discharge and safety.
- Minimal sample preparation for ex situ analysis of anode and cathode material
- Real time analysis of structural and material changes in lithium-ion batteries
Our use of plastics in everyday items and manufacturing processes has resulted in a deluge of slowly degradable materials entering our environment and our food chain. Academic and industrial researchers are leveraging new analytical techniques to identify and assess the risks of microplastics found in the environment and consumer products. Raman microscopy can help you identify, characterize, and quantify microplastics from a variety of sample sources (bottled water, ocean water, industry waste streams) without being a spectroscopy expert.
- Automated, multi-point microplastics analysis and identification
- Advanced software for optical and chemical location, characterization and identification of microplastics on filters
- Higher spatial resolution enables analysis of smaller particles complementing FTIR analysis
Characterizing materials like graphene or other specialty materials requires noninvasive methods making Raman a top choice. Many material traits like disorder, edge and grain boundaries, thickness, doping, strain and thermal conductivity can be learned from Raman spectrum and its behavior under varying physical conditions.