モリタ マサト
盛田 雅人助教
Morita Masato

■研究者基本情報

組織

  • 工学部 物質科学工学科
  • 理工学研究科(博士前期課程) 量子線科学専攻
  • 応用理工学野 物質科学工学領域

研究分野

  • ナノテク・材料, 有機機能材料
  • ナノテク・材料, 有機合成化学

学位

  • 2022年03月 博士(工学)(京都工芸繊維大学)

学歴

  • 2019年04月 - 2022年03月, 京都工芸繊維大学, 大学院工芸科学研究科, 博士後期課程 物質・材料化学専攻
  • 2017年04月 - 2019年03月, 京都工芸繊維大学, 大学院工芸科学研究科, 博士前期課程 物質合成化学専攻
  • 2013年04月 - 2017年03月, 京都工芸繊維大学, 工芸科学部, 物質工学課程

経歴

  • 2024年04月 - 現在, 茨城大学, 大学院理工学研究科 量子線科学専攻, 助教
  • 2022年04月 - 2024年03月, 東洋紡株式会社, 研究員
  • 2021年04月 - 2022年03月, 日本学術振興会, 特別研究員(DC2)

■研究活動情報

論文

  • Access to optically active tetrafluoroethylenated amines based on [1,3]-proton shift reaction
    Yuta Kabumoto; Eiichiro Yoshimoto; Bing Xiaohuan; Masato Morita; Motohiro Yasui; Shigeyuki Yamada; Tsutomu Konno, Treatment of various (R)-N-(2,2,3,3-tetrafluoropent-4-en-1-ylidene)-1-phenylethylamine derivatives with 2.4 equiv of DBU in toluene at room temperature to 50 °C for 24 h led to a smooth [1,3]-proton shift reaction with a high chirality transfer, affording the corresponding rearranged products in acceptable yields. Without purification, these products were subjected to acid hydrolysis and the subsequent N-Cbz protection, providing the optically active tetrafluoroethylenated amides in moderate three-step yields., Beilstein Institut
    Beilstein Journal of Organic Chemistry, 2024年11月01日, [査読有り]
  • Aggregation-induced enhanced fluorescence by hydrogen bonding in π-conjugated tricarbocycles with a CF2CF2-containing cyclohexa-1,3-diene skeleton
    Haruka Ohsato; Masato Morita; Shigeyuki Yamada; Tomohiro Agou; Hiroki Fukumoto; Tsutomu Konno, A novel π-conjugated tricarbocycle with a CF2CF2-containing cyclohexa-1,3-diene skeleton was revealed to show aggregation-induced enhancement emission, which would pave the way for novel solid-state fluorescence materials., Royal Society of Chemistry (RSC)
    Molecular Systems Design & Engineering, 2022年06月09日, [査読有り]
  • Fluorinated tolane-based fluorophores bearing a branched flexible unit with aggregation-induced emission enhancement characteristics
    Shigeyuki Yamada; Masaya Sato; Eiji Uto; Mitsuki Kataoka; Masato Morita; Tsutomu Konno, Precise molecular design of fluorinated tolane-based fluorophores can control both the electron density and molecular aggregated structures., Royal Society of Chemistry (RSC)
    New Journal of Chemistry, 2022年01月25日, [査読有り]
  • Halogen atom effect of fluorinated tolanes on their luminescence characteristics
    Masato Morita; Shigeyuki Yamada; Tsutomu Konno, 筆頭著者, Modification of the halogen constituent in the fluorinated tolane moiety is an effective method for tailoring the functionality of the material., Royal Society of Chemistry (RSC)
    New Journal of Chemistry, 2022年01月20日, [査読有り]
  • D–π–A-type fluorinated tolanes with a diphenylamino group: crystal polymorphism formation and photophysical behavior
    Shigeyuki Yamada; Kazuki Kobayashi; Masato Morita; Tsutomu Konno, Ph2N-Substituted fluorinated tolanes produced two polymorphisms, which display a distinct photoluminescence behavior; one polymorphism showed green PL and the other exhibited yellow PL., Royal Society of Chemistry (RSC)
    CrystEngComm, 2022年01月17日, [査読有り]
  • Unsymmetrical Hexafluorocyclopentene-Linked Twisted π-Conjugated Molecules as Dual-State Emissive Luminophores
    Shigeyuki Yamada; Akito Nishizawa; Kazuki Kobayashi; Keigo Yoshida; Masato Morita; Tomohiro Agou; Takaaki Hosoya; Hiroki Fukumoto; Tsutomu Konno, Dual-state emissive (DSE) luminophores, which can luminesce both in solution and in solid states, have recently attracted significant attention because of their broad applications. However, their development is difficult due to the difference in molecular design between solution- and solid-state luminophores. In this study, DSE luminophores based on unsymmetrical hexafluorocyclopentene-linked twisted π-conjugated structures carrying various substituents to tune the electron-density were designed and synthesized in a single-step reaction from heptafluorocyclopentene or perfluoro-1,2-diphenylcyclopentene derivatives. The twisted π-conjugated luminophores exhibited absorption in the UV region at approximately 330 nm, along with several signals in the high-energy region. Upon irradiating the luminophore solution (wavelength 330 nm), light-green to yellow photoluminescence (PL) was observed in the range of 422–471 nm with high PL efficiency. Theoretical calculations revealed that excitation from ground to excited states altered the structural shape of the luminophores from twisted to planar, leading to red-shifted PL and high PL efficiency (ΦPL). The intense blue PL exhibited by the luminophores in the crystalline state was attributed to their twisted molecular structures that suppressed non-radiative deactivation via the effective blocking of π/π stacking interactions., MDPI AG
    Symmetry, 2021年10月06日, [査読有り]
  • Effect of Fluoroalkyl-Substituent in Bistolane-Based Photoluminescent Liquid Crystals on Their Physical Behavior
    Shigeyuki Yamada; Yizhou Wang; Masato Morita; Qingzhi Zhang; David O’Hagan; Masakazu Nagata; Tomohiro Agou; Hiroki Fukumoto; Toshio Kubota; Mitsuo Hara; Tsutomu Konno, Photoluminescent liquid crystals (PLLCs) have attracted significant attention owing to their broad applicability in thermosensing and PL switching. Extensive efforts have been made to develop bistolane-based PLLCs containing flexible units at both molecular terminals, and it has been revealed that their PL behavior can switch with the phase transition between the crystalline and LC phases. Although slight modulation of the flexible unit structure dramatically alters the LC and PL behaviors, few studies into the modification of the flexible units have been conducted. With the aim of achieving dynamic changes in their physical behaviors, we developed a family of bistolane derivatives containing a simple alkyl or a fluoroalkyl flexible chain and carried out a detailed systematic evaluation of their physical behaviors. Bistolanes containing a simple alkyl chain showed a nematic LC phase, whereas switching the flexible chain in the bistolane to a fluoroalkyl moiety significantly altered the LC phase to generate a smectic phase. The fluoroalkyl-containing bistolanes displayed a stronger deep blue PL than their corresponding non-fluorinated counterparts, even in the crystalline phase, which was attributed to the construction of rigid molecular aggregates through intermolecular F···H and F···F interactions to suppress non-radiative deactivation., MDPI AG
    Crystals, 2021年04月20日, [査読有り]
  • Systematic Studies on the Effect of Fluorine Atoms in Fluorinated Tolanes on Their Photophysical Properties.
    Masato Morita; Shigeyuki Yamada; Tsutomu Konno, 筆頭著者, In this study, we synthesized a series of fluorinated and non-fluorinated tolanes, in which one or more fluorine atoms were systematically introduced into one aromatic ring of a tolane scaffold, and systematically evaluated their photophysical properties. All the tolanes with or without fluorine substituents were found to have poor photoluminescence (PL) in tetrahydrofuran (THF) solutions. On the other hand, in the crystalline state, non-fluorinated and fluorinated tolanes with one or four fluorine atoms were less emissive, whereas fluorinated tolanes with three or five fluorine atoms exhibited high PL efficiencies (ФPL) up to 0.51. X-ray crystallographic analyses of the emissive fluorinated tolanes revealed that the position of the fluorine substituent played a key role in achieving a high ФPL. Fluorine substituents at the ortho (2/6) and para (4) positions led to tight and rigid packing due to plural π-π stacking and/or hydrogen bonding interactions, resulting in enhanced ФPL caused by the suppression of non-radiative deactivation. Additionally, fluorinated tolanes with three fluorine atoms exhibited notable aggregation-induced PL emission enhancement in THF/water mixed solvents. This demonstrates that the PL characteristics of small PL materials can be tuned depending on the usage requirements.
    Molecules (Basel, Switzerland), 2021年04月14日, [査読有り]
  • Development of fluorinated benzils and bisbenzils as room-temperature phosphorescent molecules
    Shigeyuki Yamada; Takuya Higashida; Yizhou Wang; Masato Morita; Takuya Hosokai; Kaveendra Maduwantha; Kaveenga Rasika Koswattage; Tsutomu Konno, Pure organic phosphorescent molecules are attractive alternatives to transition-metal-complex-based phosphores for biomedical and technological applications owing to their abundance and nontoxicity. This article discloses the design, synthesis, and photophysical properties of fluorinated benzil and bisbenzil derivatives as potential pure organic room-temperature phosphorescent molecules. These compounds were separately converted from the corresponding fluorinated bistolanes via PdCl2-catalyzed oxidation by dimethyl sulfoxide, while nonfluorinated bistolane provided the corresponding bisbenzil derivatives exclusively in a similar manner. Intensive investigations of the photophysical properties of the benzil and bisbenzil derivatives in toluene at 25 °C showed both fluorescence with a photoluminescence (PL) band at a maximum wavelength (λPL) of around 400 nm and phosphorescence with a PL band at a λPL of around 560 nm. Interestingly, intersystem crossing effectively caused fluorinated benzils to emit phosphorescence, which may arise from immediate spin-orbit coupling involving the 1(n, π)→3(π, π) transition, unlike the case of fluorinated or nonfluorinated bisbenzil analogues. These findings offer a useful guide for developing novel pure organic room-temperature phosphorescent materials., Beilstein Institut
    Beilstein Journal of Organic Chemistry, 2020年05月29日, [査読有り]
  • Fluorine-induced emission enhancement of tolanes via formation of tight molecular aggregates
    Masato Morita; Shigeyuki Yamada; Tsutomu Konno, 筆頭著者,

    Incorporation of fluorine atoms into the tolane backbone constructed tight crystal packing structures to suppress molecular motions, which provided dramatic enhancement of photoluminescence efficiency in crystalline state.

    , Royal Society of Chemistry (RSC)
    New Journal of Chemistry, 2020年04月08日, [査読有り]
  • Synthesis and characterization of bent fluorine-containing donor–π-acceptor molecules as intense luminophores with large Stokes shifts
    Shigeyuki Yamada; Akito Nishizawa; Masato Morita; Takuya Hosokai; Yusuke Okabayashi; Tomohiro Agou; Takaaki Hosoya; Toshio Kubota; Tsutomu Konno,

    Bent fluorine-containing D–π-A molecules showed intense photoluminescence with large Stokes shifts stem from their twisted and bent molecular geometries.

    , Royal Society of Chemistry (RSC)
    Organic & Biomolecular Chemistry, 2019年07月02日, [査読有り]
  • Luminescence Tuning of Fluorinated Bistolanes via Electronic or Aggregated-Structure Control
    Masato Morita; Shigeyuki Yamada; Tomohiro Agou; Toshio Kubota; Tsutomu Konno, 筆頭著者, Organic luminescent materials have a wide range of practical applications, but the understanding of the relationship between molecular structure and luminescent behavior is lacking. Herein, we synthesized fluorinated bistolanes with an electron-donating alkoxy substituent at one terminal and an electron-withdrawing substituent at the other to realize systematic control of the electron-density distribution. Evaluation of the phase transition behavior revealed that most of the fluorinated bistolanes showed liquid-crystalline (LC) behavior, with the phase transition temperature depending on the terminal substituents. Additionally, the fluorinated luminophores displayed intense photoluminescence (PL) in solution and in their crystal phases. Remarkably, the PL color shifted dramatically depending on the dipole moment (μ||) along the long molecular axis; thus, PL tuning can be achieved through electronic modulation by precise control of the μ|| of the luminophore. Interestingly, in the LC phases under thermal conditions, the maximum PL band shifted by 0.210 eV upon phase transition from the crystal to smectic A LC phases, indicating that PL tuning can also be achieved by controlling the aggregated structure. These results offer a new molecular design for easily tunable PL materials using the molecular properties or external stimuli for promising applications, including light-emitting displays and PL sensing materials., MDPI AG
    Applied Sciences, 2019年05月09日, [査読有り]
  • Development of Novel Solid-State Light-Emitting Materials Based on Pentafluorinated Tolane Fluorophores
    Shigeyuki Yamada; Akira Mitsuda; Kazuya Miyano; Tsuyoshi Tanaka; Masato Morita; Tomohiro Agou; Toshio Kubota; Tsutomu Konno, American Chemical Society (ACS)
    ACS Omega, 2018年08月14日, [査読有り]
  • Thermoresponsive luminescence properties of polyfluorinated bistolane-type light-emitting liquid crystals
    Shigeyuki Yamada; Masato Morita; Tomohiro Agou; Toshio Kubota; Takahiro Ichikawa; Tsutomu Konno,

    Thermoresponsive luminescent materials based on polyfluorinated bistolanes were developed and were found to show reversible PL switching by applying a thermal stimulus.

    , Royal Society of Chemistry (RSC)
    Organic & Biomolecular Chemistry, 2018年07月13日, [査読有り]
  • Multi-color photoluminescence induced by electron-density distribution of fluorinated bistolane derivatives
    Shigeyuki Yamada; Masato Morita; Tsutomu Konno, Elsevier BV
    Journal of Fluorine Chemistry, 2017年09月12日, [査読有り]

講演・口頭発表等

  • フルオロアルキル基を利用したベンゾチアゾール誘導体の発光波長制御               
    吉野 陸; 福元 博基; 盛田 雅人
    第47回 フッ素化学討論会, 2024年11月14日
    20241114, 20241115
  • 含フッ素ビフェニル型紫外発光分子の合成及び光学特性評価               
    川崎 陽希; 福元 博基; 盛田 雅人
    第47回 フッ素化学討論会, 2024年11月14日
    20241114, 20241115
  • 非共有結合性相互作用を活用した新規ビフェニル型発光分子の合成及びその物性評価               
    川﨑 陽希; 盛田 雅人
    第14回 CSJ化学フェスタ2024, 2024年10月24日
    20241022, 20241024
  • 嵩高い置換基を導入したベンゾチアゾール誘導体の光学特性               
    吉野 陸; 盛田 雅人
    第14回 CSJ化学フェスタ2024, 2024年10月24日
    20241022, 20241024
  • ベンゾチアゾール骨格を基本骨格とするπ共役発光分子のドナー性評価               
    望月 百々花; 盛田 雅人
    第14回 CSJ化学フェスタ2024, 2024年10月23日
    20241022, 20241024

担当経験のある科目(授業)

  • 液晶化学               
    2024年11月 - 2025年02月
    茨城大学大学院
  • 応用化学演習Ⅱ               
    2024年11月 - 2025年02月
    茨城大学
  • 基礎有機化学Ⅲ               
    2024年11月 - 2025年02月
    茨城大学
  • 有機光化学               
    2024年09月 - 2024年11月
    茨城大学大学院
  • 有機化学Ⅲ               
    2024年09月 - 2024年11月
    茨城大学
  • 応用化学実験Ⅰ               
    2024年04月 - 2024年08月
    茨城大学
  • 物質科学基礎実験Ⅰ               
    2024年04月 - 2024年08月
    茨城大学

所属学協会

  • 2024年08月 - 現在, 日本フッ素化学会
  • 2024年04月 - 現在, 日本化学会

共同研究・競争的資金等の研究課題

社会貢献活動

  • こうがく祭 教員企画 「かがくであそぼ」               
    企画
    茨城大学 工学部 物質科学工学科, 2024年11月02日
  • 2024年度特別授業「茨城大学での体験学習」               
    講師
    日立理科クラブ 理数アカデミー, 2024年10月20日
  • 茨城大学1日体験化学教室               
    講師
    茨城大学 工学部 物質科学工学科, 2024年08月22日
  • 茨城大学オープンキャンパス(研究室公開)               
    運営参加・支援
    茨城大学, 2024年07月27日