Home

aminefunctionalized

Aminefunctionalized refers to materials or molecules that have been modified to bear amino groups, typically -NH2, -NH-, or -NR2 moieties, on their surface or backbone. The presence of amine groups increases basicity, enables covalent coupling to electrophiles such as carboxyl, aldehyde, or epoxy groups, and provides sites for further bioconjugation, adsorption, or catalysis. The term encompasses inorganic, organic, and hybrid systems, including surfaces, polymers, and nanoparticles.

Methods of aminefunctionalization vary by substrate. On oxide or glass surfaces and silica-derived materials, amine groups

Characterization commonly uses X-ray photoelectron spectroscopy (N 1s signal), infrared spectroscopy, zeta potential measurements, and elemental

Applications of aminefunctionalized materials include bioconjugation and immobilization of enzymes and antibodies, development of biosensors, affinity

are
commonly
introduced
by
silanization
with
amino-silanes
such
as
3-aminopropyltriethoxysilane
(APTES)
or
N-[3-(trimethoxysilyl)propyl]ethylenediamine,
followed
by
curing.
For
carboxyl-containing
polymers
or
biomaterials,
amines
can
be
installed
via
carbodiimide
coupling
with
polyamines,
or
through
reductive
amination
of
aldehyde-
or
ketone-functionalized
precursors.
Carbon-based
surfaces
may
be
functionalized
by
diazonium
chemistry
or
by
grafting
polyamines
using
surface-initiated
polymerization.
In
nanoparticles,
surface
ligands
bearing
primary
or
secondary
amines
provide
reactive
handles
for
conjugation.
analysis
to
confirm
nitrogen
content.
Properties
such
as
surface
charge,
reactivity,
and
stability
depend
on
the
density
and
accessibility
of
amine
groups.
and
ion-exchange
chromatography,
catalysis
with
basic
amine
sites,
and
drug
delivery
or
tissue
engineering
where
further
functionalization
is
required.