Macromolecular Research

  • 제15권1호
  • /
  • Pages.74-81
  • /
  • 2007
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  • 1598-5032(pISSN)
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  • 2092-7673(eISSN)
한국고분자학회 (The Polymer Society of Korea)
권호 표지

Synthesis and Photopolymerization of Photoreactive Mesogens Based on Chalcone

  • Nam, Sang-Woon (School of Materials Science and Engineering, and Hyperstructured Organic Materials Research Center, College of Engineering, Seoul National University) ;
  • Kang, Suk-Hoon (School of Materials Science and Engineering, and Hyperstructured Organic Materials Research Center, College of Engineering, Seoul National University) ;
  • Chang, Ji-Young (School of Materials Science and Engineering, and Hyperstructured Organic Materials Research Center, College of Engineering, Seoul National University)
  • 발행 : 2007.02.28
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초록

A series of photoreactive mesogens based on chalcone were prepared and their morphological behavior and reactivity were studied according to a variable number of alkyloxy tail carbons. The linear ester compounds 3a-h comprised two chalcone units connected to a benzene ring through ester linkages. All linear ester compounds showed enantiotropic liquid crystalline phases. The X-ray diffractograms for the mesophases of compounds 3a-h showed a set of reflections in the small-angle region which consisted of more than three sharp diffraction peaks with d spacings in the ratio of 1:1/2:1/3, confirming the well defined smectic A structures of the compounds. Compounds 3a-h were considered to be bifunctional monomers due to the presence of two photoreactive chalcone groups. Upon UV irradiation, its polymerization proceeded through the [2+2] addition reaction between chalcone units in a stepwise manner. An image pattern was obtained by the photopolymerization of the liquid crystal of the compound (3h) with decyloxy tails through a photomask. The irradiated part became dark while the masked part remained birefringent under polarized optical microscopy, which was ascribed to the production via the UV irradiation of a polymer or a dimer having cyclobutane rings by [2+2] addition, which thereby disrupted the alignment of the molecules.

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