High dispersion ability of fluorene‐based polyester as a polymer matrix for carbon nanotubes |
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Authors: | Shinichi Kawasaki Masahiro Yamada Kana Kobori Fengzhe Jin Toshikazu Takata |
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Affiliation: | 1. Energy Technology Laboratories, Osaka Gas Company, Limited, Konohana, Osaka 554‐0051, Japan;2. Fine Material Business Promotion Department, Osaka Gas Chemicals Company, Limited, Konohana, Osaka 554‐0051, Japan;3. SANYU Chemical Company, Limited, Itami, Hyogo 664‐0837, Japan;4. Department of Organic and Polymeric Materials, Tokyo Institute of Technology, Ookayama, Meguro, Tokyo 152‐8552, Japan |
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Abstract: | The high compatibility of fluorene‐based polyester (FBP‐HX) as a polymer matrix for multiwalled carbon nanotubes (MWCNTs) is discussed. A low surface resistivity due to the fine dispersion of MWCNTs in FBP‐HX and polycarbonate (PC) is reported. With a solution‐casting method, a percolation threshold with the addition of between 0.5 and 1.0 wt % MWCNTs was observed in the MWCNT/PC and MWCNT/FBP‐HX composites. Because of the coverage of FBP‐HX on the MWCNTs, a higher surface resistivity and a higher percolation ratio of the MWCNT/FBP‐HX composites were achieved compared with the values for the MWCNT/PC composites. In the MWCNT/FBP‐HX composites, MWCNTs covered with FBP‐HX were observed by scanning electronic microscopy. Because of the coverage of FBP‐HX on the MWCNTs, FBP‐HX interfered with the electrical pathway between the MWCNTs. The MWCNTs in FBP‐HX were covered with a 5‐nm layer of FBP‐HX, but the MWCNTs in the MWCNT/PC composites were in their naked state. MWCNT/PC sheets demonstrated the specific Raman absorption of the MWCNTs only with the addition of MWCNTs of 1 wt % or above because of the coverage of the surface of the composite sheet by naked MWCNTs. In contrast, MWCNT/FBP‐HX retained the behavior of the matrix resin until a 3 wt % addition of MWCNTs was reached because of the coverage of MWCNTs by the FBP‐HX resin, induced by its high wettability. © 2010 Wiley Periodicals, Inc. J Appl Polym Sci, 2010 |
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Keywords: | carbon nanotube composites dispersions polyesters |
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