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中杉茂正 研究業績一覧 (8件)
論文
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Shigemasa Nakasugi,
Sungmin Kang,
Tso-Fu Mark Chang,
Takaaki Manaka,
Hiroki Ishizaki,
Masato Sone,
Junji Watanabe.
Three Distinct Polar Phases, Isotropic, Nematic and Smectic-A Phases Formed from Fluoro-Substituted Dimeric Molecule with Large Dipole Moment,
The Journal of Physical Chemistry B,
Vol. 127,
No. 29,
p. 6585–6595,
June 2023.
公式リンク
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Shigemasa Nakasugi,
Sungmin Kang,
Tso-Fu Mark Chang,
Takaaki Manaka,
Hiroki Ishizaki,
Masato Sone,
Junji Watanabe.
Spontaneous Polarization Characteristics in Polar Smectic Phases of Fluoro-Substituted Bent-Shaped Dimeric Molecules,
The Journal of Physical Chemistry B,
ACS Journal,
Vol. 126,
No. 40,
pp. 8119–8127,
Oct. 2022.
公式リンク
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Shigemasa Nakasugi,
Sungmin Kang,
Tso-Fu Mark Chang,
Hiroki Ishizaki,
Masato Sone,
Junji Watanabe.
Electric Switching Behaviors and Dielectric Relaxation Properties in Ferroelectric, Antiferroelectric and Paraelectric Smectic Phases of Bent-Shaped Dimeric Molecules,
The Journal of Physical Chemistry Part: Part B,
Vol. 126,
No. 26,
pp. 4967–4976,
June 2022.
公式リンク
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中杉茂正,
姜聲敏,
渡辺順次,
石崎博基,
曽根正人.
シッフ塩基型二量体分子の誘電緩和挙動,
電気学会論文誌 A,
電気学会,
Vol. 142,
No. 4,
pp. 152-158,
Feb. 2022.
公式リンク
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Shigemasa Nakasugi,
Sungmin Kang,
Junji Watanabe,
Hiroki Ishizaki,
Masato Sone.
Huge Dielectric Constants of the Ferroelectric Smectic-A Phase in Bent-Shaped Dimeric Molecules,
Materials Advances,
The Royal Society of Chemistry,
Vol. 2,
pp. 7017-7023,
Sept. 2021.
公式リンク
学位論文
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Molecular Design of Bent-Shaped Dimeric Molecules to Adapt Low Temperature Ferroelectric Phase with High Spontaneous Polarization and Dielectric Strength,
Thesis,
Doctor (Engineering),
Tokyo Institute of Technology,
2023/09/22,
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Molecular Design of Bent-Shaped Dimeric Molecules to Adapt Low Temperature Ferroelectric Phase with High Spontaneous Polarization and Dielectric Strength,
Exam Summary,
Doctor (Engineering),
Tokyo Institute of Technology,
2023/09/22,
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Molecular Design of Bent-Shaped Dimeric Molecules to Adapt Low Temperature Ferroelectric Phase with High Spontaneous Polarization and Dielectric Strength,
Summary,
Doctor (Engineering),
Tokyo Institute of Technology,
2023/09/22,
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