Spontaneous polarization and orientational dynamics of polar rod-like molecules in host/guest materials

Citation
M. Wubbenhorst et al., Spontaneous polarization and orientational dynamics of polar rod-like molecules in host/guest materials, IEEE DIELEC, 7(4), 2000, pp. 523-530
Citations number
15
Categorie Soggetti
Eletrical & Eletronics Engineeing
Journal title
IEEE TRANSACTIONS ON DIELECTRICS AND ELECTRICAL INSULATION
ISSN journal
10709878 → ACNP
Volume
7
Issue
4
Year of publication
2000
Pages
523 - 530
Database
ISI
SICI code
1070-9878(200008)7:4<523:SPAODO>2.0.ZU;2-3
Abstract
The polar domain structure and dynamics of host/guest materials which inclu de polar rodlike molecules were investigated by pyroelectric and dielectric techniques. Using scanning pyroelectric microscopy (SPEM), spatially resol ved information on a mu m scale was obtained of the 3-D domain structure of the polarization caused by an acentric host lattice and/or the polar arran gement of dipolar guest molecules. Two classes of pyroelectric host/guest m aterials were examined with SPEM: (1) an inorganic host (zeolite AlPO4-5) w hich was loaded with p-nitroaniline (PNA) guest molecules by an adsorption process, and (2) an organic channel-type inclusion material, which establis hes its macroscopic polarity by cocrystallization of perhydrotriphenylene ( PHTP) with the polar guest 1-(4-nitrophenyl)piperazine) (NPP). Despite grea t differences in the chemical composition and morphology, both types of hos t/guest systems revealed 180 degrees macro-domains, of which the particular shape and sign of the polarization were in accordance with models about cr ystal growth and/or directed adsorption of polar molecules. In order to ass ess the molecular dynamics of the included guest molecules, frequency depen dent local pyroelectric measurement, based on SPEM, and broad-band dielectr ic relaxation spectroscopy were performed. Whereas guest molecules included in PHTP channels show no rotational dynamics, we found several relaxation processes in FNA-loaded AlPO4-5 crystals, which were assigned to local and cooperative relaxation modes of molecular chains of the hydrogen-bonded PNA guest molecules.