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polymerization

Polymerization is a chemical process in which small molecules called monomers react to form a large molecule called a polymer, made of repeating units. Polymers may be linear, branched, or crosslinked, and their properties are influenced by monomer choice, stoichiometry, and processing conditions. Monomers may be identical or different and often contain multiple reactive sites.

There are two broad categories of polymerization: addition (chain-growth) polymerization and condensation (step-growth) polymerization. In addition

Key concepts include the degree of polymerization, molecular weight distribution, and kinetics. Living (or controlled) polymerization

Historically, the idea of macromolecules emerged in the early 20th century, with later theoretical work by

polymerization,
an
initiator
generates
an
active
center
that
adds
monomer
units
one
by
one,
rapidly
building
a
growing
chain.
Propagation
continues
until
termination
or
transfer
occurs.
This
category
includes
free-radical
polymerization
(used
for
polyethylene,
polystyrene),
anionic
and
cationic
polymerization
(used
for
various
polymers
including
polyacrylates),
and
coordination
polymerization
(used
for
many
polyolefins
under
Ziegler–Natta
or
metallocene
catalysts).
In
condensation
polymerization,
monomers
react
to
form
covalent
bonds
with
the
loss
of
a
small
molecule
such
as
water
or
methanol;
high
conversion
and
functionality
are
needed
to
reach
high
molecular
weight.
Common
condensation
polymers
include
polyesters
(e.g.,
PET)
and
polyamides
(e.g.,
nylon).
techniques,
such
as
RAFT
or
ATRP,
enable
precise
control
of
molecular
weight
and
architecture
with
reduced
dispersity.
Hermann
Staudinger
establishing
the
macromolecular
nature
of
polymers.
Today,
polymerization
underpins
plastics,
fibers,
coatings,
adhesives,
and
many
biomedical
and
electronic
materials,
emphasizing
efficiency,
selectivity,
and
environmental
considerations.