The production technology is based on creating nano-sized TiO2 particles.TiO2-particles are coated with a 2-step process to enable them to be dissolved in any possible kind of material.
The process
Step 1: Time- and cost-efficient method to break down agglomerates into nano sized-particles
Step 2: First general coating, enabling the nano-particles to form stable gel-solutions.
Step 3: Second specific coating to dissolve the nano-particles in the desired kind of material, or to form a chemically bonded matrix
Step 4: Develop applications and commercialize technology
The metal oxides
In addition to titanium dioxide, the patented technology encompasses other metal oxides, which further broadens the number of potential applications.
The patents incorporate other metal oxides as well, such as silicon dioxide, iron (III) oxide, yttrium (III) oxide, yttrium (III) iron (III) oxide, ytterbium (III) oxide, zinc oxide, zirconium V) oxide and mixtures thereof. For some applications it might be useful to have a radioactive material, such as uranium oxide, or to have particles having magnetic properties, or semiconductor properties, or optoelectronic properties. The production technology on which Sparkxis is based is unique:
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Sparkxis has developed a technology, which enables the commercial production of customised organically coated titanium dioxide (TiO2) nano particles.
What makes
Sparkxis unique?
New scalable titanium dioxide nano-particle production process
- Based on chemical treatment of bulk materials
- Very cost efficient production
- High yield from bulk starting material
- Absolutely transparent materials with novel physical properties
- Transparently soluble
- UV protective
- Very high refractive index