Mesoporous alumina- and silica-based crystalline nanocomposites with tailored anisotropy: Methodology, structure and properties

We present several recently synthesized nanocomposites consisting of liquid crystals as well as an organic molecular crystal embedded into the nanochannels of mesoporous alumina and silica. As liquid-crystalline mesogens achiral, nematogen and chiral cholesteric guest molecules infiltrated into nanochannels by spontaneous imbibition were chosen. The molecular ordering inside the nanochannels, which can be tailored by modifying the surface anchoring, was characterized by optical polarimetry (linear and/or circular birefringence) in combination with X-ray diffraction. For the synthesis of the solid crystalline nanocomposites ferroelectric triglycine sulfate (TGS) nanocrystals were deposited into the nanochannels by slow evaporation of saturated water solutions imbibed into the porous hosts. Their textural and physicochemical properties were explored by x-ray diffraction, scanning electron microscopy and dielectric techniques.

Subjects

Dielectric properties

Linear and circular birefringence

Liquid-crystalline nanocomposites

Nanocomposites

Nanocrystals

Optical anisotropy

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Mesoporous alumina- and silica-based crystalline nanocomposites with tailored anisotropy: Methodology, structure and properties