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semipermeables

Semipermeables are membranes or materials that allow certain substances to pass through while restricting others. They are characterized by selective permeability, typically permitting solvent molecules or small solutes to pass while blocking larger solutes or ions. The selectivity arises from physical features such as pore size and distribution, surface chemistry, and the polymer or material structure, as well as from embedded transport proteins in biological membranes.

In living systems, semipermeable membranes control exchange of water, nutrients, and wastes. Water often moves by

Common materials include lipid bilayers in biology; polymeric membranes such as polyamide, cellulose acetate, polyimide; ceramic

Limitations include trade-offs between permeability and selectivity, fouling, chemical resistance, and mechanical stability. Ongoing research explores

osmosis
through
the
membrane,
frequently
via
specific
protein
channels
called
aquaporins.
Other
solutes
pass
by
passive
diffusion
or
active
transport,
depending
on
energy
use
and
gradient.
In
synthetic
contexts,
semipermeable
membranes
are
designed
for
specific
separations:
ultrafiltration
and
dialysis
membranes
remove
large
molecules;
reverse
osmosis
and
nanofiltration
membranes
reject
salts
and
small
ions;
gas
separation
membranes
discriminate
gases
by
size
and
solubility.
membranes;
and
composite
structures.
Applications
span
physiology
and
medicine
(dialysis,
drug
delivery),
water
treatment,
chemical
engineering,
and
environmental
monitoring.
new
polymers,
mixed-matrix
membranes,
and
biomimetic
designs
to
achieve
higher
selectivity
at
practical
flux.