Cerion can optimize and manufacture a range of metal, metal oxide and mixed-metal nanoparticles for a wide variety of commercial products. If you don’t see your specific material of interest listed here, contact us and we can provide you with a custom research and development quote. Whether it’s 2nm tungsten oxide or 200nm titanium dioxide, we can custom design a unique material for your system.
Cerion’s patented processes allow us to customize and manufacture 2-3nm ceria at industrial scale volumes. This size range has been proven to be the most reactive and thermodynamically stable for many applications.
Iron oxyhydroxide nanoparticles can be used for a variety of performance applications including wastewater treatment, catalysis and as pigments. Cerion offers the smallest, most reactive iron oxyhydroxide nanoparticle dispersions on the market.
Whether you are developing a low-temperature sintering conductive paste or tunable sensors, Cerion can offer silver nanoparticles that are completely customizable to our customer’s specifications and, most importantly, are able to be manufactured at industrial scale volumes (tons).
In response to industry demand for a consistent North American manufacturer of ultra-fine TiO2 for a variety of applications such as photo-catalytic coatings, UV absorbers and catalyst supports, Cerion has developed two variations of TiO2 that are now available for industry evaluation and optimization.
Following the addition of zinc oxide into Annex VI of the EU Cosmetics Regulation last year, industry is demanding a higher-quality, ultra-small nano zinc oxide with tightly controlled particle sizes compared to the products currently available on the market.
When integrated into products, zirconia nanoparticles can significantly improve strength, toughness and scratch resistance, increase refractive index and lower thermal conductivity while exhibiting excellent transparency.
To see the most up-to-date list of products both fully commercialized and currently in development, download our catalogue.