@article{oai:soar-ir.repo.nii.ac.jp:00017851,
 author = {Khoerunnisa,  Fitri and Morelos-Gomez,  Aaron and Tanaka,  Hideki and Fujimori,  Toshihiko and Minami,  Daiki and Kukobat,  Radovan and Hayashi,  Takuya and Hong,  Sang Young and Choi,  Young Chul and Miyahara,  Minoru and Terrones,  Mauricio and Endo,  Morinobu and Kaneko,  Katsumi},
 journal = {FARADAY DISCUSSIONS},
 month = {},
 note = {Accepted 27 Jun 2014, Naphthalene (N) or naphthalene-derivative (ND) adsorption-treatment evidently varies the electrical conductivity of single wall carbon nanotube (SWCNT) bundles over a wide temperature range due to a charge-transfer interaction. The adsorption treatment of SWCNTs with dinitronaphthalene molecules enhances the electrical conductivity of the SWCNT bundles by 50 times. The temperature dependence of the electrical conductivity of N- or ND-adsorbed SWCNT bundles having a superlattice structure suggests metal-semiconductor transition like behavior near 260 K. The ND-adsorbed SWCNT gives a maximum in the logarithm of electrical conductivity vs. T-1. plot, which may occur after the change to a metallic state and be associated with a partial unravelling of the SWCNT bundle due to an evoked librational motion of the moieties of ND with elevation of the temperature., Article, FARADAY DISCUSSIONS. 173:145-156 (2014)},
 pages = {145--156},
 title = {Metal-semiconductor transition like behavior of naphthalene-doped single wall carbon nanotube bundles},
 volume = {173},
 year = {2014}
}