Malvern Instruments provides the materials and biophysical characterization technology and expertise that enable scientists and engineers to understand and control the properties of dispersed systems. These systems range from proteins and polymers in solution, particle and nanoparticle suspensions and emulsions, through to sprays and aerosols, industrial bulk powders and high concentration slurries. Used at all stages of research, development and manufacturing, Malvern's materials characterization instruments provide critical information that helps accelerate research and product development, enhance and maintain product quality and optimize process efficiency.
Our products reflect Malvern's drive to exploit the latest technological innovations and our commitment to maximizing the potential of established techniques. They are used by both industry and academia, in sectors ranging from pharmaceuticals and biopharmaceuticals to bulk chemicals, cement, plastics and polymers, energy and the environment.
Malvern systems are used to measure particle size, particle shape, zeta potential, protein charge, molecular weight, mass, size and conformation, microcalorimetry, rheological properties and for chemical identification, advancing the understanding of dispersed systems across many different industries and applications.
Headquartered in Malvern, UK, Malvern Instruments has subsidiary organizations in all major European markets, North America, Mexico, China, Japan and Korea, a joint venture in India, a global distributor network and applications laboratories around the world.
Technology:
Differential Scanning Calorimetry
Dynamic Light Scattering (DLS)
Electrophoretic Light Scattering (ELS)
Gel Permeation Chromatography (GPC)
Image Analysis
Isothermal Titration Calorimetry
Laser Diffraction
Nanoparticle Tracking Analysis
Raman spectroscopy
Resonant mass measurement
Rheometry - capillary
Rheometry - rotational
Size Exclusion Chromatography (SEC)
Spatial Filter Velocimetry
Static Light Scattering (SLS)
Taylor Dispersion Analysis