Home

trilanes

Trilanes are a class of organosilicon compounds characterized by three silicon atoms connected by silicon–silicon bonds, forming a linear Si–Si–Si backbone. The simplest member is trisilane, H3Si–Si–SiH3, and many derivatives replace terminal hydrogens with alkyl or aryl groups to give dialkyltrisilane, diaryltrisilane, and related compounds. As a subset of polysilanes, trilanes illustrate the growth of silicon chains beyond disilanes and longer silicon oligomers.

Structure and properties

Trilanes typically feature a flexible Si–Si chain with various terminal substituents. The Si–Si bonds are generally

Preparation

Synthetic routes to trilanes include reduction or redistribution of higher oligomeric silanes, coupling of silane fragments,

Reactions and applications

Trilanes serve as building blocks for longer polysilanes and as precursors in materials science research. They

Safety and handling

Due to air and moisture sensitivity, trilanes are typically handled under inert conditions. Appropriate precautions are

reactive
toward
moisture
and
oxygen,
making
many
trilanes
air-
and
moisture-sensitive.
They
can
display
interesting
reactivity
under
photochemical
or
radical
conditions
and
can
participate
in
transformations
that
extend
the
silicon
chain
to
longer
polysilanes
or
convert
the
Si–Si
backbone
into
siloxane-containing
motifs
upon
oxidation.
and
hydrosilylation-type
approaches
that
assemble
the
Si–Si
backbone
from
smaller
silane
units.
Reactions
are
often
performed
under
inert
atmospheres
to
prevent
decomposition.
are
studied
for
their
electronic
and
optoelectronic
properties,
potential
use
in
silicon-based
polymers,
and
transformation
into
higher
oligosilanes
or
siloxanes.
Their
chemistry
helps
illuminate
Si–Si
bond
behavior
and
the
broader
chemistry
of
silicon-based
materials.
required
to
prevent
degradation
and
exposure.