![_ngi0464[002]](https://www.inventech.nl/cache/0e3c356f50729db299a91cd3ebb4b94c/_ngi0464[002].jpg)
Advanced particle characterization for complex samples
EOSThe CLASSIZER™ ONE, equipped with SPES/SPES² technology, offers high-resolution analysis of submicron and micro-sized particles in environmental fluids. Environmental research faces challenges in understanding particulate matter's role in radiative transfer and its long-term impact on ecosystems. Particles are categorized into ultrafine, fine, and coarse modes, with fine and ultrafine particles often resulting from industrial processes and coarse particles from natural sources. Accurate characterization of these particles is essential for assessing their environmental effects.
The CLASSIZER™ ONE excels in analyzing polydisperse suspensions, providing real-time insights into particle behavior, aging, and degradation. This is especially valuable for studying the environmental impact of nanoparticles, such as zinc oxide emulsions, in complex waters. Its unique capabilities allow for deeper understanding of particle stability and interactions, supporting more accurate assessments of their long-term effects on ecosystems and human health.
Key benefits
Nanomaterials often consist of mixtures of fully or partially biobased materials. Think of biomedical materials and polymer mixtures. In R&D and quality control of these mixtures, traditional methods such as LD and DLS provide averaged data over the entire sample. In doing so, all particles are considered the same, just with different sizes. This can be a limitation in various R&D and QC tasks. SPES particle characterization method solves this problem.
What would you like to measure?
Contact us for more information, we are happy to help.