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NanoBecken

NanoBecken is a nanoscale analytical platform designed for selective capture and analysis of biomolecules in very small sample volumes. The core concept is a dense array of hollow, basin‑like nanostructures that provide high surface area and enclosed reaction spaces, enabling concentration and processing of single molecules or small molecular ensembles.

Each basin is fabricated from durable materials such as silicon nitride or graphene-based composites and is

Origins and status: NanoBecken emerged from a collaborative effort among nanotechnology researchers and was demonstrated in

Limitations and outlook: Challenges include scalable fabrication, robustness of surface functionalization, and integration with downstream data

See also nanofluidics and sensor arrays.

lined
with
a
functional
surface—antibody
fragments,
aptamers,
or
chemical
ligands—chosen
for
target
specificity.
An
integrated
readout
system
using
either
electrochemical
sensors,
optical
reporters,
or
plasmonic
elements
converts
binding
events
into
measurable
signals.
The
design
aims
to
minimize
sample
loss
and
cross‑talk
between
basins
while
allowing
rapid
exchange
with
the
surrounding
fluid.
laboratory
settings
as
a
platform
for
multiplexed
detection.
Prototypes
have
shown
sensitivity
improvements
over
conventional
microfluidic
sensors
in
select
assays
and
are
being
explored
for
point‑of‑care
diagnostics
as
well
as
environmental
monitoring.
processing.
While
not
yet
a
commercial
product,
NanoBecken
is
cited
in
research
as
a
versatile
nanostructured
sensing
platform
with
potential
across
biomedical
and
analytical
chemistry
applications.