This paper reports first principle calculations and analysis of the molecular mechanism of the
polarization switching in polyvinylidene fluoride and its copolymer with trifluoroethylene
(P(VDF–TrFE)) using semi-empirical and ab initio quantum chemical methods based on
the HyperChem 7.5 and Gaussian98 programs. The simulations were performed for
different copolymer contents in P(VDF–TrFE)—(70:30), (60:40) and pure PVDF. The
calculated values of the dipole moment and average polarization of the molecular chains
show a clear hysteresis under varying electric field with polarization saturated at
∼0.1–0.14 C m−2. The calculated coercive fields (corresponding to the rotation of molecular chains to opposite
orientation) are consistent (within an order of magnitude) with experimental data obtained for thin
films (Ec = 5–18 MV cm−1). In the absence of external electric fields, the interactions between several molecular
chains lead to the orientation of all dipole moments along one direction parallel to the
chain plane. This model corresponds to the PVDF layer on the dielectric surface. For the
electric field in the perpendicular direction, all chains are rotated along this direction
corresponding to the model of conductive substrate.
Hydroxyapatite (Ca5(PO4)3 OH) (HAp) is a crystalline structure and composition
analogue to calcified tissues of vertebrates. The biomedical significance of HAp is its bioactivity –
HAp ceramics leads to the formation of new bone on their surface. HAp properties are ascribed to
the characteristic surface structure of HAp, while the detailed mechanism is still unknown.
Modeling and computation of HAp molecular nanostructures, exploration of the possible
mechanisms of its surface charging (polarization), based on proton transfer, and the discussion of
the adhesion properties of HAp nanoparticles and ceramics are the aim of the work.
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