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  4. Thermotropic interface and core relaxation dynamics of liquid crystals in silica glass nanochannels: A dielectric spectroscopy study
 
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Thermotropic interface and core relaxation dynamics of liquid crystals in silica glass nanochannels: A dielectric spectroscopy study

Publikationstyp
Journal Article
Date Issued
2015-08
Sprache
English
Author(s)
Calus, Sylwia  
Borowik, Lech  
Kityk, Andriy V.  
Eich, Manfred  
Busch, Mark  orcid-logo
Huber, Patrick  orcid-logo
Institut
Optische und Elektronische Materialien E-12  
Werkstoffphysik und -technologie M-22  
TORE-URI
http://hdl.handle.net/11420/6633
Journal
Physical chemistry, chemical physics  
Volume
17
Start Page
22115
End Page
22124
Citation
Physical Chemistry Chemical Physics (17): 22115-22124 (2015)
Publisher DOI
10.1039/C5CP03039K
Scopus ID
2-s2.0-84939839566
Publisher
RSC, Royal Society of Chemistry
We report dielectric relaxation spectroscopy experiments on two rod-like liquid crystals of the cyanobiphenyl family (5CB and 6CB) confined in tubular nanochannels with 7 nm radius and 340 micrometer length in a monolithic, mesoporous silica membrane. The measurements were performed on composites for two distinct regimes of fractional filling: monolayer coverage at the pore walls and complete filling of the pores. For the layer coverage a slow surface relaxation dominates the dielectric properties. For the entirely filled channels the dielectric spectra are governed by two thermally-activated relaxation processes with considerably different relaxation rates: A slow relaxation in the interface layer next to the channel walls and a fast relaxation in the core region of the channel filling. The strengths and characteristic frequencies of both relaxation processes have been extracted and analysed as a function of temperature. Whereas the temperature dependence of the static capacitance reflects the effective (average) molecular ordering over the pore volume and is well described within a Landau-de Gennes theory, the extracted relaxation strengths of the slow and fast relaxation processes provide an access to distinct local molecular ordering mechanisms. The order parameter in the core region exhibits a bulk-like behaviour with a strong increase in the nematic ordering just below the paranematic-to-nematic transition temperature TPN and subsequent saturation during cooling. By contrast, the surface ordering evolves continuously with a kink near TPN. A comparison of the thermotropic behaviour of the monolayer with the complete filling reveals that the molecular order in the core region of the pore filling affects the order of the peripheral molecular layers at the wall.
DDC Class
620: Ingenieurwissenschaften
Funding(s)
Molecular structure and dynamics of liquid crystals based nanocomposites (Decision No.DEC-2012/05/B/ST3/02782)  
More Funding Information
German reearch foundatiion (DFG) Grant No. HU850/5
SFB 986 project area B and project C2
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