Products and Benefits
Titanates nano-bridge inorganics to organics via six functions
(1) (2) (3)(4)(5)(6)
(RO)n-Ti-(-O- X- R' - Y)4-n
Function 1 (RO)n Coupling
Titanates form 1.5-nanometer
atomic monolayers on the interface
of inorganic/organic substrates via
proton coordination to bridge
chemically two dissimilar substrates.
Function 2 (Ti-O) Catalysis
Titanates are catalysts.
Function 3 (X) Phosphatization
Heteroatom function phosphatizes
interfaces to prevent corrision and provide nano-intumescence.
Function 4 (R’) Compatibilization
Aliphatic non-polar to aromatic
polar groups match the coupled
interface to polymer polarity.
Function 5 (Y) Curative
Amino, methacrylic, acrylic, mercapto groups interact with curatives to increase x-link in thermosets.
Function 6 [ )4-n] Hybridization
Monolkoxy, chelate, coordinate, neoalkoxy, quat titanates and zirconates can be synthesized to provide multiple functions from hyrophobic to hydrophillic.
Market Applications
Plastics
Rubber
Composites
Adhesives
Coatings
Color
Cosmetics
Military
Cement
Recycle
Some Benefits
- Coupling/Adhesion
- Coupling/Viscosity Reduction
- Coupling/Deagglomeration
- Coupling/Exfoliation
- Coupling/Hydrophobicity
- Coupling/Anti-Aging
- Catalysis/Polymer Flow
- Catalysis/Copolymerization
- Catalysis/Flexibilization
- Catalysis/Regeneration
- Catalysis/Recyclability
- Catalysis/Biodegradation
- Phosphatization/Anti-Corrosion
- Phosphatization/Flame Retard
- Phosphatization/Microbial
- Compatibilization/Adhesion
- Compatibilization/Plasticizing
- Curative/Strength
- Curative/Crosslink
- Hybridization/Water Solubility