Diamon-Fusion Coating is an option on many of our shower enclosures. This patented process is a revolution in glass treatment and protection.
It was developed to protect the surface of the glass and greatly reduce the cleaning effort. Using a process called chemical vapor deposition, the result is a permanent transparent seal bonded to the surface of the glass.
HOW DOES THE DIAMON-FUSION VAPOR PROCESS WORK?
DFI’s nanotechnology, patented in the US as Diamon-Fusion®, is an award-winning technology that uses a chemical vapor deposition process.
DFI’s nanotechnology is applicable to most surfaces containing silica (silicon dioxide) such as glass, ceramic tile, porcelain, and granite. The specially formulated vapors react with the moisture on the surface and the silica in the substrate (to be treated).
The Diamon-Fusion Coating Nanotechnology is Generated by a Two-Stage Chemical Process:
The chemical reaction created in the first stage causes a “cross-linked” and “branched” silicone film to be grown from below the surface out. After converting the chlorine atoms to OH groups using additional moisture (chlorine was left at the end of the atom chains after the first stage), a second specially formulated vapor is introduced to the surface.
The second stage ‘caps’ the entire chain of atoms. This unique ‘capping’ substantially increases the hydrophobicity and durability, leaving, chemically speaking, no points of attachment for contaminants and creating a truly repellant charge.
The chemical reaction bonds to form an ultra-thin protective layer of optically clear durable material, a nanostructured device, making the surface significantly easier to clean and more resistant to weathering.
This method is done at nano-scale levels, thus also called ‘nano-chemistry’, which is a length scale of approximately 1 – 100 nanometer range (1 nanometer is 1/1,000,000,000 meter, or 1 billionth of a meter).
Nanometer dimensions are at the atomic dimension scale.
DFI’s COVALENT BOND
The bond created in the patented process is a covalent bond, the strongest possible bond, in chemical terms that a hydrophobic coating can generate. A covalent bond means that the coating shares the electrons within the glass itself, thus becoming a part of the glass.
Covalent Bonds are approximately 10 times stronger than hydrogen-bridge bonds, which are commonly present in most other water repellent coatings.