A three-step procedure is proposed to investigate growth-induced polarity arising in centrosymmetric
crystals of dipolar molecules. It is based on (i) calculation of molecular interaction energies by force
field methods, (ii) determination of the morphology, and (iii) use of the energies in a Markov-type growth
mechanism on faces (hkl). Applied to trans-4-chloro-4‘-nitrostilbene (CNS), the procedure showed that
CNS crystals, although globally centric, are composed of sectors exhibiting different polar properties.
The sectors related to the +b and −b directions show opposite polarity and are mainly responsible for
observed second-harmonic generation and pyroelectric effects. Influence of the calculation method on
the results was investigated by comparing different force fields or charges.
The molecular dynamics in nanometer thin films of glycerol was investigated upon thickness reduction by combining organic molecular deposition with in situ broadband dielectric spectroscopy. Changes in the cooperative dynamics with respect to bulk glycerol were observed for films of thicknesses down to 1.6 nm (corresponding to roughly three molecular layers). Systematic investigation revealed no pure size effects addressable merely to geometrical constraints. However, an increase in the glass transition temperature by 3.5 K was observed for the thinnest film, indicating the presence of a layer with reduced mobility in close proximity to the substrate. The impact of both the upper and lower interfaces has been disentangled by measurements performed during slow desorption. Moreover, proof is given for the existence of a layer with enhanced mobility in the vicinity of the free surface enslaved to the dynamics of the rest of the film.
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