Home

permolecule

Permolecule is a neologistic term used in some discussions of chemistry and nanotechnology to describe a molecular unit that is designed to retain its identity through chemical processes and to function as a modular building block in larger assemblies. It is not a standard term with a single, universally accepted definition, and usage varies among authors.

Typical characteristics include chemical stability under the intended processing conditions, defined functional handles that enable connections

Design strategies emphasize orthogonal chemistries and robust covalent or strong noncovalent linkages. Examples of approaches include

Potential applications include rapid prototyping of nanomaterials, scaffold design in synthetic biology, targeted drug delivery systems

Because permolecule is not a formal, widely adopted term, readers should consult the specific sources that

to
other
permolecules,
and
a
geometry
that
supports
predictable
orientation
and
packing.
Unlike
conventional
monomers
that
are
consumed
or
permanently
altered
during
polymerization,
a
permolecule
is
intended
to
survive
assembly
steps
and
to
be
reconfigured
or
reused
if
needed,
while
maintaining
its
distinct
identity.
using
orthogonal
reactive
pairs
(such
as
azide–alkyne
click
chemistry),
employing
reversible
bonds
that
allow
reconfiguration,
and
embedding
recognition
motifs
that
guide
selective
self-assembly.
Some
discussions
also
relate
permolecules
to
modular
macromolecular
components,
dendritic
or
core-shell
architectures,
and
supramolecular
units
that
assemble
into
higher-order
materials.
built
from
discrete
units,
and
adaptive
materials
that
can
be
disassembled
and
reassembled
without
loss
of
component
identity.
Realization
as
a
widespread
concept
faces
challenges
in
achieving
scalable
synthesis,
long-term
stability,
and
clear
standards
for
what
constitutes
identity
under
given
conditions.
employ
it
to
understand
the
exact
definition
and
scope
in
that
context.