Photoinduced Change in Mechanical Properties of Anthracene Polymers Containing Flexible Side Chains

Anthracene polymers containing flexible side chains were prepared and their photomechanical properties were investigated. The glass transition temperature of the polymers decreased and the photoreactivity at room temperature was enhanced with an increase of the flexible side chain content. When the...

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Published in	Bulletin of the Chemical Society of Japan Vol. 83; no. 11; pp. 1333 - 1337
Main Authors	Kondo, Mizuho, Takemoto, Masahiko, Matsuda, Takehiro, Fukae, Ryohei, Kawatsuki, Nobuhiro
Format	Journal Article
Language	English
Published	Tokyo The Chemical Society of Japan 15.11.2010 Chemical Society of Japan
Subjects	Anthracene Chains (polymeric) Deformation Fibers Glass transition temperature Light sources Mechanical properties Polymers Thermal expansion
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Abstract	Anthracene polymers containing flexible side chains were prepared and their photomechanical properties were investigated. The glass transition temperature of the polymers decreased and the photoreactivity at room temperature was enhanced with an increase of the flexible side chain content. When the polymer was formed into a fiber shape and illuminated with UV light, it bent toward the actinic light source. The deformation was investigated using a thermomechanical analyzer, which revealed that the polymers undergo fast expansion and slow contraction in response to UV light, due to the thermal expansion and photodimerization of the anthracene moiety, respectively.
AbstractList	Anthracene polymers containing flexible side chains were prepared and their photomechanical properties were investigated. The glass transition temperature of the polymers decreased and the photoreactivity at room temperature was enhanced with an increase of the flexible side chain content. When the polymer was formed into a fiber shape and illuminated with UV light, it bent toward the actinic light source. The deformation was investigated using a thermomechanical analyzer, which revealed that the polymers undergo fast expansion and slow contraction in response to UV light, due to the thermal expansion and photodimerization of the anthracene moiety, respectively. Abstract Anthracene polymers containing flexible side chains were prepared and their photomechanical properties were investigated. The glass transition temperature of the polymers decreased and the photoreactivity at room temperature was enhanced with an increase of the flexible side chain content. When the polymer was formed into a fiber shape and illuminated with UV light, it bent toward the actinic light source. The deformation was investigated using a thermomechanical analyzer, which revealed that the polymers undergo fast expansion and slow contraction in response to UV light, due to the thermal expansion and photodimerization of the anthracene moiety, respectively.
Author	Kawatsuki, Nobuhiro Takemoto, Masahiko Matsuda, Takehiro Kondo, Mizuho Fukae, Ryohei
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SubjectTerms	Anthracene Chains (polymeric) Deformation Fibers Glass transition temperature Light sources Mechanical properties Polymers Thermal expansion
Title	Photoinduced Change in Mechanical Properties of Anthracene Polymers Containing Flexible Side Chains
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