Advanced Materials:

The CAFS method is:

  • inexpensive;
  • scalable;
  • and allows for the synthesis of high quality, nearly monodisperse solutions of nanoparticles or branched nanocrystals.

Innovate with an enabling technology:

Successful synthesis of nanomaterials with these qualities demands the ability to address a complex combination of conflicting requirements. These are simultaneously unattainable by other nanomaterial synthesis processes, but with ownership of a highly disruptive technology, Irilliant is well positioned to grow into a worldwide manufacturing leader of high quality nanomaterials.

CAFS is a platform technology that enables the production of a variety of nanomaterials, including:

  • Fluorescent CdS
  • CdSe
  • CdTe
  • Nanosilver
  • Zinc and iron oxide
  • Iron-platinum colloidal nanoparticles
The CAFS method can be extended to the synthesis of nanostructured alloys, composites, and other materials.


Functionalization:
Obtained from organic solvents, the products are further functionalized for specific applications. For example, fluorescent nanoparticles can be transferred to water and further modified for bioimaging or embedded in polymers for luminescent applications. The surface of metal nanoparticles can be functionalized for biological applications or electronics applications as conductive inks. Magnetic nanoparticles can be embedded into microspheres and used for analytical purposes or deposited on various surfaces and used in magnetic storage devices.

ENCOURAGE COLLABORATIONS

Irilliant is actively seeking partners in order to expand our product line via the synthesis of new materials or via functionalization or multicomposition of existing materials.

Professionals wishing to discuss proposals for future applications should contact Irilliant directly. Explore our Partner Development Program as well.

Contact us to discuss your needs or the possibility of a collaborative program.

Please contact Irilliant directly to discuss collaboration or joint development. Custom synthesis and processing are possible as per your requirements.

>>Nanometals:

Au
Ag
Cu
Ni

>>Nanooxides:

Fe3O4
ZnO
SiO2

TiO2

>>Quantum Dots:

CdSe
CdTe
CdSe/ZnS
CdS

>>Nano-Composites:

CdSe/SiO2
SiO2/TiO2

TiO2/Cr3O3

>>Nanomagnets:

Fe3O4

FePt