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○ 2024
丹下将克, 1次元ナノ粒子の孤立分散性を極めて高めたナノ粒子複合膜の実現 , Colloid & Interface Communications 49(1) (2024) 12-15.
○ 2022
W. Xu, M. Li, M. Tange, L. Li, J. Hou, J. Ye, L. Wei, Y. Chen, and J. Zhao, Printed thin film transistors with 108 on/off ratios and photoelectrical synergistic characteristics using isoindigo-based polymers-enriched (9,8) carbon nanotubes , Nano Research 15(6) (2022) 5517-5526.
○ 2017
W. Gao, W. Xu, J. Ye, T. Liu, J. Wang, H. Tan, Y. Lin, M. Tange, D. Sun, L. Wu, T. Okazaki, Y. Yang, Z. Zhang, J. Zhao, Z. Cui, and C.-Q. Ma, Selective Dispersion of Large-Diameter Semiconducting Carbon Nanotubes by Functionalized Conjugated Dendritic Oligothiophenes for Use in Printed Thin Film Transistors, Adv. Funct. Mater. 27 (2017) 1703938 (10 pages).
○ 2016S.A. Chechetka, Y. Yu, M. Tange, and E. Miyako, Materially Engineered Artificial Pollinators, Chem. 2 (2017) 224-239.
X. Zhang, J. Zhao, J. Dou, M. Tange, W. Xu, L. Mo, J. Xie, W. Xu, C. Ma, T. Okazaki, and Z. Cui, Flexible CMOS-Like Circuits Based on Printed P-Type and N-Type Carbon Nanotube Thin-Film Transistors, Small 12 (2016) 5066-5073.
○ 2015W. Xu, J. Dou, J. Zhao, H. Tan, J. Ye, M. Tange, W. Gao, W. Xu, X. Zhang, W. Guo, C.-Q. Ma, T. Okazaki, K. Zhang and Z. Cui, Printed thin film transistors and CMOS inverters based on semiconducting carbon nanotube ink purified by a nonlinear conjugated copolymer, Nanoscale 8 (2016) 4588-4598. C. Zhou, J. Zhao, J. Ye, M. Tange, X. Zhang, W. Xu, K. Zhang, T. Okazaki, and Z. Cui, Printed thin-film transistors and NO2 gas sensors based on sorted semiconducting carbon nanotubes by isoindigo-based copolymer, Carbon 108 (2016) 372-380. Z. Wang, N. Izumi, Y. Nakanishi, T. Koyama, T. Sugai, M. Tange, T. Okazaki, and H. Shinohara, Near-Infrared Photoluminescence Properties of Endohedral Mono- and Dithulium Metallofullerenes, ACS Nano 10 (2016) 4282-4287. M. Tange, T. Okazaki, Z. Liu, K. Suenaga, and S. Iijima, Room-temperature Y-type emission of perylenes by encapsulation within single-walled carbon nanotubes, Nanoscale 8 (2016) 7834-7839.
X. Zhang, J. Zhao, M. Tange, W. Xu, W. Xu, K. Zhang, W. Guo, T. Okazaki, and Z. Cui, Sorting semiconducting single walled carbon nanotubes by poly(9,9-dioctylfluorene) derivatives and application for ammonia gas sensing, Carbon 94 (2015) 903-910.
○ 2014
Y. Iizumi, H. Suzuki, M. Tange, and T. Okazaki, Diameter-Selective Electron Transfer from Encapsulated Ferrocenes to Single-Walled Carbon Nanotubes, Nanoscale 6 (2014) 13910-13914.
○ 2013M. Tange, K. J. Kyoung, T. Okazaki, and S. Iijima, Extraction of semiconducting single-walled carbon nanotubes encapsulating fullerences by poly(9,9-dioctylfluorene-alt-benzothiadiazole), Japanese Journal of Applied Physics, 53 (2014) 045101 (3 pages). H. Suzuki, Y. Iizumi, M. Tange, S.-K. Joung, A. Furube, T. Wada, T. Tajima, Y. Takaguchi, and T. Okazaki, Spectroscopic Characterization of Nanohybrids Consisting of Single-walled Carbon Nanotubes and Fullerodendron, Fullerenes, Nanotubes and Carbon Nanostructures 22 (2014) 75-87. M. Tange, T. Okazaki, and S. Iijima, Influence of structure-selective fluorene-based polymer wrapping on optical transitions of single-wall carbon nanotubes, Nanoscale 6 (2014) 248-254.
T. Eitoku, M. Tange, H. Kato, and T. Okazaki, Depolarized dynamic light scattering study of multi-walled carbon nanotubes in solution, Materials Express 3 (2013) 37-42.
○ 2012
M. Tange, T. Okazaki, and S. Iijima, Selective Extraction of Semiconducting Single-Wall Carbon Nanotubes by Poly(9,9-dioctylfluorene-alt-pyridine) for 1.5 µm Emission, ACS Appl. Mater. Interfaces 4 (2012) 6458-6462.
○ 2011
M. Tange, T. Okazaki, and S. Iijima, Selective Extraction of Large-Diameter Single-Wall Carbon Nanotubes with Specific Chiral Indices by Poly(9,9-dioctylfluorene-alt-benzothiadiazole), J. Am. Chem. Soc. 133 (2011) 11908-11911.
○ 2010
S. Ohmori, T. Saito, M. Tange, B. Shukla, T. Okazaki, M. Yumura, and S. Iijima, Fundamental Importance of Background Analysis in Precise Characterization of Single-Walled Carbon Nanotubes by Optical Absorption Spectroscopy, J. Phys. Chem. C 114 (2010) 10077-10081.
○ 2009
M. Tange and R. Yoshizaki, Effect of strip width on low-field peak effect of critical current density in Bi2Sr2CaCu2O8+δ superconducting strips, Journal of the Physical Society of Japan 78 (2009) 024703 (5 pages).
This article was selected for Virtual Journal of Application of Superconductivity (VJAS) 16, issue 9 (2009).
○ 2008
M. Tange and R. Yoshizaki, Electrical transport properties influenced by surface barriers in a high-Tc superconducting strip, Physica C 468 (2008) 1274-1277.
○ 2007R. Yoshizaki, T. Nakajima, M. Tange, and H. Ikeda, Annealing Effect of 80 K-Class Superconductivity of Ca-Doped Bi2Sr2CuO6+δ in Bi-2201 Phase, Appl. Phys. Express 1 (2008) 041701 (3 pages).
T. Nakajima, M. Tange, T. Kizuka, H. Ikeda, R. Yoshizaki, and S. Sasaki, 80 K superconductivity in Bi-2201 phase, Physica C 463-465 (2007) 93-95.
○ 2006M. Tange, H. Ikeda, and R. Yoshizaki, Size effect of critical current densities for Bi-2212 superconducting whiskers, Physica C 460-462 (2007) 388-389. R. Yoshizaki, T. Nakajima, and M. Tange, Ca substitution effect for Sr upon superconductivity of Bi2.1CaySr1.9-yCuO6+δ, Japanese Journal of Applied Physics 46 (2007) L167-L169.
M. Tange, H. Ikeda, and R. Yoshizaki, Peak effect of critical current densities of Bi2Sr2CaCu2O8+δ superconducting whiskers at high temperatures in a low-field regime, Physical Review B 74 (2006) 064514 (8 pages).
This article was selected for Virtual Journal of Application of Superconductivity (VJAS) 11, issue 5 (2006).
・・・Y. Arao, M. Tange, H. Ikeda, T. Koyano, and R. Yoshizaki, A new aspect of superconductivity observed (Bi, Pb)2(Sr, La)2CuO6+δ single crystals, Physica C 445-448 (2006) 440-442. M. Tange, Y. Arao, H. Ikeda, and R. Yoshizaki, Enhancement of critical current density under low magnetic fields around 70 K in Bi2Sr2CaCu2Oy superconducting whiskers, The American Institute of Physics (AIP), AIP Conference Proceedings vol. 850 (2006) 795-796. Y. Arao, M. Tange, H. Ikeda, T. Koyano, and R. Yoshizaki, Optimization of Pb and La co-doped Bi2Sr2CuO6+δ superconductors, The American Institute of Physics (AIP), AIP Conference Proceedings vol. 850 (2006) 511-512. |
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