We propose a generalized lattice model that enables prediction of the phase behavior and thermal stability of surface-confined metal-organic layers consisting of the molecules with nitrogen-bearing functional groups (-CN, -Py,...
An off-lattice model of self-assembling surface-confined
metal–organic
nanostructures (SMONs) comprising tripod molecules has been developed.
The model considers the directionality and saturability of coordination
bonding. To parametrize the model, density functional theory methods
have been used. Self-assembly of the SMONs has been simulated with
Metropolis Monte Carlo method in the canonical ensemble. In this paper,
we investigate how the directionality of metal–linker bonding
and the linker/metal ratio affect the self-assembly of SMONs containing
metal centers with different coordination numbers: M(II), M(III),
and M(IV). The directionality of coordination bonding is determined
by the functional group of the linker molecule and is defined in the
model as the angular diameter of the interaction shell. Regardless
of the preferred coordination number of the metal center, even a small
change in the angular diameter significantly affects the structure
of the SMONs. Depending on the angular diameter and composition of
the metal–organic layer, various structures can appear. Using
our model, we have simulated the self-assembly of the random porous
(or defected honeycomb) and triangular structures, the set of hexagonal
phases, amorphous structures of different densities, and metal–organic
chains. Relative thermal stabilities of clusters of the main structures
have been studied. The model reproduces correctly the main SMONs observed
by scanning tunneling microscopy.
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