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xyvlak

XYVLAK is a fictional term used in speculative materials science to denote a proposed two-dimensional planar allotrope with a corrugated hexagonal lattice and mixed sp2/sp3 bonding. The name reflects its planar xy-plane geometry (vlak = plane) and its use in discussions of 2D materials.

Predicted properties include high in-plane stiffness, low density, and anisotropic electronic transport. The lattice is described

Development and status: XYVLAK was introduced in theoretical discussions in the late 21st century as a model

Potential applications in the imagined scenario include flexible nanoelectronics, strain-sensitive devices, and catalytic surfaces. The concept

See also

- Graphene

- Silicene

- Transition metal dichalcogenides

- Hexagonal boron nitride

as
a
repeating
motif
of
fused
rings
that
creates
a
relatively
flat
electronic
band
near
the
Fermi
level,
enabling
strong
electronic
correlations
under
modest
doping.
for
exploring
how
lattice
topology
influences
electronic
structure.
In
the
fiction,
synthesis
via
surface-assisted
chemical
vapor
deposition
and
functionalization
has
been
proposed,
but
no
experimental
realization
has
been
publicly
verified.
is
often
cited
alongside
graphene
and
other
two-dimensional
materials
to
illustrate
how
lattice
architecture
can
tailor
mechanical
and
electronic
properties.