Pack Size
Quantity
Price
 
10 g
$165.00

Product data and descriptions listed are typical values, not intended to be used as specification.

  • HMIS

    2-3-1-X
  • Molecular Formula

    C8H22Si2
  • Molecular Weight (g/mol)

    174.44
  • Boiling Point (˚C/mmHg)

    35° / 0.3
  • Density (g/mL)

    0.772
  • Refractive Index @ 20˚C

    1.4461

Additional Properties

  • Hydrolytic Sensitivity

    4: no reaction with water under neutral conditions
  • Safety

  • Packaging Under

    Nitrogen
  • Silyl Hydrides

    Silyl Hydrides are a distinct class of silanes that behave and react very differently than conventional silane coupling agents. They react with the liberation of byproduct hydrogen. Silyl hydrides can react with hydroxylic surfaces under both non-catalyzed and catalyzed conditions by a dehydrogenative coupling mechanism. Trihydridosilanes react with a variety of pure metal surfaces including gold, titanium, zirconium and amorphous silicon, by a dissociative adsorption mechanism. The reactions generally take place at room temperature and can be conducted in the vapor phase or with the pure silane or solutions of the silane in aprotic solvents. Deposition should not be conducted in water, alcohol or protic solvents.

    1,10-Disiladecane

  • Dipodal silyl hydride
  • Analog of SIB1829.2
  • Silicon Chemistry, Articles

    Dipodal Silanes – Zazyczny et al.

    Manufacturing growth opportunities exist in the United States for alternative energy (photovoltaic modules, fuel cells, wind turbines) and medical and healthcare (surgical devices, dental implants and drug delivery) applications. More traditional markets where growth is expected include automotive, construction and specialty packaging.

    Silicon Chemistry, Articles

    Silicon Chemistry, Applied Technology, Applied Technology