Updated on 2024/10/02

Information

 

写真a

 
SUZUKI SATOSHI
 
Organization
Faculty of Science Department of Chemistry Assistant Professor
School of Sciences Department of Chemistry(Concurrent)
Graduate School of Sciences Department of Chemistry(Concurrent)
Title
Assistant Professor
Contact information
メールアドレス
Tel
0928024135
Profile
電子状態計算を用いて、主に光化学の反応経路、特に無輻射失活について研究している。
External link

Degree

  • Ph.D(Science)

Research Interests・Research Keywords

  • Research theme:theoretical design of highly emissive fluorophore with tuning of non-radiative decay

    Keyword:theoretical chemistry, photo chemistry,molecular design, fluorescence

    Research period: 2021.4 - 2025.3

  • Research theme:Theoretical chemistry about excited state and non-radiative decay

    Keyword:theoretical chemistry, photo chemistry

    Research period: 2021.3 - 2025.3

Papers

  • Near-room-temperature π-conjugated nematic liquid crystals in molecules with a flexible seven-membered ring structure

    Iwai, R; Yoshida, H; Arakawa, Y; Sasaki, S; Iida, Y; Igawa, K; Sakurai, T; Suzuki, S; Tokita, M; Watanabe, J; Konishi, G

    AGGREGATE   2024.9   ISSN:27668541 eISSN:2692-4560

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    Publisher:Aggregate  

    Nematic liquid crystals (NLCs), that is, fluids with optical anisotropy as well as electric- and magnetic-field responsiveness, have been widely used in commercial liquid crystal displays. Recent advancements have extended the scope of NLC molecules to large calamitic π-conjugated systems, which heralds prospects for novel applications that exploit their superior electronic or optical functionalities in, for example, electric field controlled fluorescence switch devices. However, NLC phases of such extended π-systems usually flow only at high temperatures, which hampers device applications that operate around room temperature. Here, we show near-room-temperature NLCs of a π-conjugated fluorophore by introducing a flexible cyclic structure into the mesogenic core. 3,8-Bis(4-propylphenyl)-6,7-dihydro-5H-benzo[7]annulene (DPB[7]-C3) has a nematic phase in a significantly lower temperature range (52.6–160.4°C) than the DPB[7]-C3 analog without flexible alkylene bridges, (E)-4-propyl-4′-(4-propylstyryl)-1,1′-biphenyl (248–262°C). We attribute this large decrease in the phase transition temperature to large intramolecular conformational entropies that arise from the geometric change of the cyclic structure, which involves rotational motion of single biaryl-bonds and bending motions along the long molecular axis in the thermal equilibrium state. The practical utility of these NLC molecules is demonstrated by preparing an electric-field-responsive large-area fluorescent switch device with a sub-millisecond response time from a mixture of 3,8-bis(4-alkylphenyl)-6,7-dihydro-5H-benzo[7]annulenes (DPB[7]-Cns).

    DOI: 10.1002/agt2.660

    Web of Science

    Scopus

Presentations

  • 効率的項間交差の実現に向けた、高次スピン軌道相互作用の寄与の解析

    #阪本 将裕、@鈴木 聡、@中野 晴之

    分子科学討論会  2023.9 

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    Event date: 2023.9

    Language:Japanese  

    Country:Japan  

  • Hydroxyphenylbenzothiazole誘導体の 無輻射失活過程に対する置換基効果の理論的研究

    #阪本 将裕,@鈴木 聡,@中野 晴之

    分子科学討論会  2022.9 

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    Event date: 2023.4

    Language:Japanese  

    Country:Japan  

  • hydroxyphenylbenzothiazole誘導体の無輻射失活過程における置換基効果に対する理論的研究

    @鈴木聡,#阪本将裕,@中野晴之

    光化学討論会  2022.9 

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    Event date: 2023.4

    Language:Japanese  

    Country:Japan  

  • 配位子の立体効果が銅錯体の 発光強度に与える影響についての理論的考察

    #黒木 博由,@鈴木 聡,@中野晴之

    分子科学討論会  2023.9 

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    Event date: 2023.3 - 2024.3

    Language:Japanese  

    Country:Japan  

  • 凝縮相での光化学の理論的理解に向けて Invited

    @鈴木聡

    凝縮系の理論化学  2022.3 

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    Event date: 2022.5

    Language:Japanese   Presentation type:Oral presentation (general)  

    Venue:那覇   Country:Japan  

  • 励起状態プロトン移動を起こすヒドロキシフェニルベンゾチアゾール分子の無輻射失活経路

    @鈴木聡 @中野晴之

    分子科学会  2021.9 

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    Event date: 2022.5

    Language:Japanese  

    Venue:札幌   Country:Japan  

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Professional Memberships

  • 理論化学会

  • 分子科学会

  • 日本化学会

Research Projects

  • 項間交差速度の理解と制御に向けた解析手法と分子設計

    Grant number:24K08341  2024 - 2027

    日本学術振興会  科学研究費助成事業  基盤研究(C)

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    Authorship:Principal investigator  Grant type:Scientific research funding

  • 分子分散・凝集の両状態で高効率発光する有機蛍光体の合理的設計開発と極限ドープ応用

    2023 - 2025

    日本学術振興会  科学研究費助成事業  基盤研究(B)

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    Authorship:Coinvestigator(s)  Grant type:Scientific research funding

Class subject

  • 構造化学実験

    2023.10 - 2024.3   Second semester

  • 構造化学実験

    2022.10 - 2022.12   Fall quarter