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Publication List - Takuya Miyazaki (13 entries)
Journal Paper
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T. Miyazaki,
Y. Shoji,
S. Fujii,
T. Fukushima.
A single-molecule conductance study on the rotational isomers of a hexaarylbenzene derivative carrying dipolar rotating units,
Japanese Journal of Applied Physics,
Volume 60,
Number 10,
Page 108002,
Oct. 2021.
Official location
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T. Miyazaki,
Y. Shoji,
F. Ishiwari,
T. Kajitani,
T. Fukushima.
Design of a molecular memory element with an alternating circular array of dipolar rotors and rotation suppressors,
Chemical Science,
Vol. 11,
Page 8388–8393,
July 2020.
Official location
International Conference (Reviewed)
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Takuya Miyazaki,
Yoshiaki Shoji,
Fumitaka Ishiwari,
Takashi Kajitani,
Manabu Kiguchi,
Shintaro Fujii,
Takanori Fukushima.
Development of electric-field-responsive self-assembled monolayers usingdipolar hexaarylbenzene derivatives,
第68回高分子討論会,
Sept. 2019.
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Takuya Miyazaki,
Yoshiaki Shoji,
Fumitaka Ishiwari,
Takashi Kajitani,
Shintaro Fujii,
Manabu Kiguchi,
Takanori Fukushima.
Electric Field-Responsive Behavior of a Hexaarylbenzene Derivative with Rotatable Dipolar Units,
18th International Symposium on Novel Aromatic Compounds (ISNA-18),
July 2019.
Domestic Conference (Reviewed)
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Takuya Miyazaki,
Yoshiaki Shoji,
藤井 慎太郎,
西野 智昭,
張 弛,
數間 恵弥子,
金 侑洙,
Takanori Fukushima.
双極性回転ユニットと回転抑制ユニットの環状配列を有する新しい分子メモリの構造および電気特性評価,
日本化学会第101春季年会 (2021.3.19-3.22) オンライン,
Mar. 2021.
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Takuya Miyazaki,
Yoshiaki Shoji,
Fumitaka Ishiwari,
Takashi Kajitani,
Takanori Fukushima.
双極性ヘキサアリールベン ゼン誘導体の集合化による電場 応答性薄膜の創製,
第29回基礎有機化学討論会,
Sept. 2018.
Domestic Conference (Not reviewed / Unknown)
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Takuya Miyazaki,
Yoshiaki Shoji,
Fumitaka Ishiwari,
Takashi Kajitani,
Manabu Kiguchi,
藤井 慎太郎,
Takanori Fukushima.
双極性ヘキサアリールベンゼン誘導体の自己組織化による電場応答薄膜の創製,
第99回日本化学会春季年会,
Mar. 2019.
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Takuya Miyazaki,
Yoshiaki Shoji,
Fumitaka Ishiwari,
Takashi Kajitani,
Takanori Fukushima.
双極性ヘキサアリールベンゼン誘導体の電場応答挙動,
日本化学会 第98春季年会,
Mar. 2018.
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Takuya Miyazaki,
Yoshiaki Shoji,
Fumitaka Ishiwari,
Takashi Kajitani,
Takanori Fukushima.
双極性多置換ベンゼン誘導体の電場による立体配座制御,
第28回基礎有機化学討論会,
Sept. 2017.
Degree
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Development of Molecular Memory Systems Based on Dipolar Rotors with Controlled Orientation and Dynamics,
Exam Summary,
Doctor (Science),
Tokyo Institute of Technology,
2022/03/26,
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Development of Molecular Memory Systems Based on Dipolar Rotors with Controlled Orientation and Dynamics,
Summary,
Doctor (Science),
Tokyo Institute of Technology,
2022/03/26,
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Development of Molecular Memory Systems Based on Dipolar Rotors with Controlled Orientation and Dynamics,
Outline,
Doctor (Science),
Tokyo Institute of Technology,
2022/03/26,
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Development of Molecular Memory Systems Based on Dipolar Rotors with Controlled Orientation and Dynamics,
Thesis,
Doctor (Science),
Tokyo Institute of Technology,
2022/03/26,
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