- INDUSTRY SOLUTIONS
Industries We Serve
From pharmaceuticals to energy storage, our sorption science solutions help industries worldwide understand and optimize material behavior for better products and processes.
De-risk solid-state development with vapor sorption and surface energy data that predict stability, manufacturability, and shelf-life.
Stability
Hygroscopicity
Surface Energy
Characterize sorbents and separation media under realistic gas/vapor conditions to accelerate carbon capture, VOC capture, and storage studies.
Carbon Capture
VOC Capture
Gas Separation
From traditional fuels to renewable technology, advancing materials science is central to developing the next generation of effective, sustainable energy solutions.
Hydrogen Storage
Fuel Cells
Batteries
Optimize wetting, adhesion, and barrier performance by measuring surface energy and solvent/moisture uptake in real conditions.
Adhesion
Solvent Uptake
Barrier
Quantify adsorption and transport in porous solids—supporting MOFs, zeolites, carbons, silica, and advanced frameworks.
Adsorption
Kinetics
Porosity
Understand surface chemistry and adsorption behavior to improve dispersion, activity, and stability of catalyst systems and supports.
Chemistry
Adsorption
Heterogeneity
Building Materials
Measure moisture interaction and vapor behavior to improve durability, processing, and performance of construction materials.
Moisture
Durability
Surface Energy
Improve bond performance by matching surface energy and understanding humidity/solvent sensitivity across substrates and formulations.
Wetting
Adhesion
Humidity
Improve dispersion and interfacial bonding by quantifying surface energy and moisture interactions of fibers, pigments, and fillers.
Dispersion
Hygroscopicity
Moisture
Develop materials with predictable uptake and barrier behavior, supporting packaging stability, permeability, and surface treatments.
Barrier
Sorption
Printability
Stabilise powders and granules by understanding humidity response, caking risk, and surface interactions in formulation.
Flowability
Hygroscopicity
Storage
Characterize water-driven swelling, uptake, and surface chemistry in cellulose, biomaterials, and natural-product systems.
Swelling
Moisture Sorption
Surface Energy
Build stable powders and actives by measuring moisture uptake and surface interactions that drive feel, flow, and performance.
Stability
Powder Flow
Surface Interactions
Reduce caking and variability by quantifying moisture sorption and surface interactions that influence storage and processing.
Shelf-life
Caking
Processability
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World-class gravimetric vapor sorption analyzers and inverse gas chromatography instruments designed for precision.