Find us on...
Chemical identification
Advanced particle characterization by Raman spectroscopy
In addition to physical characteristics such as particle size and shape, the chemical identity of particulates can be important for a number of applications such as;
- Component specific particle characterization for particle mixtures e.g. inhaled pharmaceutical medicines.
- Identification of contaminant or outlier particles in production samples.
- Forensic investigation of unknown particulate samples.
Malvern Instruments have developed advanced instrumentation for the chemical identification of particulate samples combining the high resolution size and shape information from automated imaging with the high chemical specificity of Raman spectroscopy.
Chemical identification products
Morphologi G3-ID
Automated chemical identification of particulates.
This system can measure: Chemical identification, Particle shape, Particle size
Dispersion Type: Wet, Dry
See the Morphologi G3-ID
This system can measure: Chemical identification, Particle shape, Particle size
Dispersion Type: Wet, Dry
See the Morphologi G3-ID
Malvern solutions for Chemical identification
Introducing the Morphologi G3–ID The future of particle characterization
This web seminar will introduce the new Morphologi G3-ID instrument. It will cover what the instrument is, how it works, and how it can be used for applications...
Component specific particle characterisation of dry powder inhalable drug products
This application note describes how the combination of automated image analysis with Raman spectroscopy in the Morphologi G3-ID can be applied...
Generic versus Innovator: an In-Vitro Bioequivalence Study with the G3-ID
A generic drug is defined as being “identical or bioequivalent to a brand name drug”1. Generic drugs approved by the U.S. Food and Drug Administration (FDA)...
Component specific particle characterisation of active component(s) in a topical cream product
Most pharmaceutical products comprise active and inactive component(s) that are blended in some way. Although the particle size distribution of the individual...
Laser diffraction and automated imaging - complementary techniques for nasal spray development
Together the techniques of laser diffraction and automated particle imaging support the fast, cost-effective development of nasal spray products, simultaneously providing the data required for regulatory...
