-
Triethylaluminium is one of the
simplest examples of an
organoaluminium compound.
Despite its name the
compound has the
formula Al2(C2H5)6 (abbreviated...
- pyrophoric. It is an
industrially important compound,
closely related to
triethylaluminium. The
structure and
bonding in Al2R6 and
diborane are
analogous (R...
-
nonmetal hydrides (diethylaluminium hydride, trimethylaluminium,
triethylaluminium, butyllithium), with a few
exceptions (i.e.
dimethylmercury and tetraethyllead)...
-
Triethylborane is
prepared by the
reaction of
trimethyl borate with
triethylaluminium: Et3Al + (MeO)3B → Et3B + (MeO)3Al The
molecule is monomeric, unlike...
-
involves oligomerization of
ethylene using triethylaluminium followed by oxidation. The
triethylaluminium is
produced by
action of aluminium, ethylene...
- is
produced industrially by the
oligomerization of
ethylene using triethylaluminium followed by
oxidation of the
alkylaluminium products. An idealized...
-
Draco thrusters used by the
SpaceX Dragon spacecraft. Triethylborane/
triethylaluminium (TEA-TEB) +
liquid oxygen – used
during the
ignition process of some...
- in
combination with cocatalysts,
organoaluminum compounds such as
triethylaluminium, Al(C2H5)3. This
class of
catalyst dominates the industry. Homogeneous...
-
under an
inert atmosphere. Some
organometallic compounds such as
triethylaluminium are
pyrophoric and will
ignite on
contact with air. As in
other areas...
- the
Ziegler process,
linear alcohols are
produced from
ethylene and
triethylaluminium followed by
oxidation and hydrolysis. An
idealized synthesis of 1-octanol...