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Highmolecularmass

High molecular mass refers to substances with very large molecular weights. In polymer science, high molecular mass typically denotes polymers with molar masses in the range of 10^5 to 10^6 g/mol, although the exact threshold varies by material and context. The concept is closely tied to molecular weight distribution and the degree of chain entanglement in the material.

Molecular weight is not a single value but a distribution. The most common measures are the number-average

High molecular mass influences physical properties. Higher Mw generally increases solution and melt viscosity, improves melt

Control of molecular mass is a central goal in polymer synthesis. Living or controlled polymerization methods

Applications of high molecular mass polymers include fibers, films, coatings, and impact-resistant plastics. In biology, very

molecular
weight
(Mn)
and
the
weight-average
molecular
weight
(Mw);
the
ratio
Mw/Mn
is
the
polydispersity
index
(PDI).
Techniques
such
as
gel
permeation
chromatography
(GPC/SEC),
light-scattering,
viscometry,
and
mass
spectrometry
are
used
to
estimate
Mw,
Mn,
and
PDI,
with
calibration
affecting
accuracy.
strength,
and
enhances
mechanical
properties
such
as
tensile
strength
and
toughness
due
to
chain
entanglements.
It
can
also
reduce
diffusion
and
crystallinity
and
complicate
processing.
can
produce
high
Mw
with
relatively
narrow
dispersities,
while
conventional
step-growth
or
chain-growth
processes
may
yield
broader
distributions.
The
choice
of
initiators,
catalysts,
and
reaction
conditions
determines
maximum
achievable
Mw
and
PDI.
large
biomolecules
such
as
proteins
and
nucleic
acids
exemplify
high
molecular
mass
systems,
illustrating
that
the
concept
spans
synthetic
and
natural
materials.