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.

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Plastics

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Rubber

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Composites

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Adhesives

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Coatings

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Color

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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