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Fluorescent Crack Sensor in a Polymeric Material  

Cho, Sung-Youl (Department of Chemistry and Medical Chemistry, Yonsei University)
Kim, Ji-Eun (Department of Chemistry and Medical Chemistry, Yonsei University)
Kim, Joong-Gon (Biotechnology Division, Hanwha Chemical R&D Center)
Chung, Chan-Moon (Department of Chemistry and Medical Chemistry, Yonsei University)
Publication Information
Polymer(Korea) / v.32, no.2, 2008 , pp. 189-192 More about this Journal
Abstract
A styrylpyrylium salt (DHSP) was synthesized and then photodimerized to obtain a cyclobutane-type dimer (DHSP dimer). Methacryloyl group was incorporated into DHSP dimer to obtain DMSP dimer. Based on FT-IR analysis of a crosslinked DMSP dimer, it was considered that the cyclobutane structure reversed to styryl C=C bonds upon crack formation. Fluorescence measurement of DHSP in solid state (excitation at 385 nm) showed emission centered at 626 nm, while DHSP dimer revealed very weak emission. Fluorescent emission from microcracks in a film of crosslinked DMSP dimer was observed upon exposure to $330{\sim}385\;nm$ light.
Keywords
crack sensor; fluorescence; cyclobutane; styrylpyrylium; mechanical cleavage;
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