چکیده
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Stabilizations and atomic level quadrupole coupling constant (CQ) properties have been investigated for
graphene–like monolayers (G–monolayers) of boron nitride (BN), boron phosphide (BP), aluminum nitride
(AlN), and aluminum phosphide (AlP) structures. To this aim, density functional theory (DFT) calculations
have been performed to optimize the model structures and also to evaluate the CQ parameters. The results of
optimizations indicated that the formations, polarities, and semiconducting properties of BN G–monolayer
are more favorable than other investigated G–monolayers. Moreover, the atomic level CQ parameters also
indicated that the atoms at the tips of monolayers have the most activities among other atoms and different
properties have been seen for the atoms at different positions of monolayers. Differences of electronegativities
are also important for the magnitudes of CQ properties as could be seen by larger values of CQ parameters for
B and Al atoms in the BN and AlN G–monolayers in comparison with BP and AlP G–monolayers.
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