Prominent electron transport property observed for triply fused metalloporphyrin dimer: directed columnar liquid crystalline assembly by amphiphilic molecular design |
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| Authors: | Sakurai Tsuneaki Shi Keyu Sato Hiroshi Tashiro Kentaro Osuka Atsuhiro Saeki Akinori Seki Shu Tagawa Seiichi Sasaki Sono Masunaga Hiroyasu Osaka Keiichi Takata Masaki Aida Takuzo |
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| Affiliation: | School of Engineering and Center for NanoBio Integration, The University of Tokyo, 7-3-1 Hongo, Bunkyo-ku, Tokyo 113-8656, Japan. |
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| Abstract: | ![]()
A triply fused copper porphyrin dimer, when site-specifically modified on its periphery with hydrophobic and hydrophilic wedges (1C12/TEG), self-assembles into a columnar liquid crystalline (LC) mesophase over a wide-temperature range from -17 to 99 degrees C but gives rise to an amorphous solid when modified with only hydrophobic (1C12/C12) or hydrophilic wedges (1TEG/TEG). A LC film of 1C12/TEG displays at 16 degrees C a top-class one-dimensional electron mobility (0.27 cm2/V x s), as evaluated from its maximum flash-photolysis time-resolved microwave conductivity. |
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