Curriculum Vitaes

norihiro aiga

  (相賀 則宏)

Profile Information

Affiliation
University of Hyogo
Degree
Ph D(Jan, 2018, Kyoto University)

researchmap Member ID
B000356299

Committee Memberships

 1

Papers

 10
  • Yusuke Hashimoto, Ryo Inoue, Masayuki Gon, Kazuo Tanaka, Norihiro Aiga, Satoshi Takeuchi, Kazuya Kubo, Tomohiro Agou
    Asian Journal of Organic Chemistry, 15(1) e70297, Jan 18, 2026  Peer-reviewed
    ABSTRACT Optically active 2‐azatriptycene 1 bearing a 1‐pyrenyl unit was synthesized. The resolved enantiomers exhibited blue circularly polarized luminescence (CPL) in solution, with dissymmetry factor g lum on the order of 10 −4 –10 −5 . In contrast, the corresponding protonated species 1H + exhibited green CPL with reversed sign, demonstrating that optically active 2‐azatriptycene functions as an acid‐responsive chiral switching unit.
  • Keishiro Tahara, Takashi Ikeda, Masanari Miyake, Norihiro Aiga, Satoshi Takeuchi, Toshikazu Ono, Ryoji Furuta, Toshiki Higashino, Yoshiki Ozawa, Masaaki Abe
    European Journal of Inorganic Chemistry, 28(26) e202500393, Sep 15, 2025  Peer-reviewed
    A series of organic crystalline solids is prepared by Lewis pairing the pyridyl derivatives of benzothienobenzothiophene (BTBT) and tris(pentafluorophenyl)borane (TPFB). The Lewis pair series shows structural variations in the arrangements of the BTBT moiety: 1D π‐stacked columns covered by TPFB, slipped columns, and cofacial dimers. Quantum chemical calculations are performed to quantify the intermolecular electronic coupling and bandgaps, which reveal that the 1D columns are electronically fragmented at the dimer or tetramer level. In response to the degree of electronic aggregations, the Lewis pairs exhibit red‐shifted fluorescence, reaching 5810 cm−1 from the emission maximum of the non‐substituted BTBT (397 nm) to that of one crystal form (516 nm). Scanning tunneling microscopy reveals that one Lewis pair is loosely gathered on the Ag(111) surface without any ordered arrangement of the adsorbates, differing from that in the solid phase. Furthermore, vibrational fingerprinting of the Lewis pair is achieved using tip‐enhanced Raman scattering techniques at the single‐molecule level, including the B–N and C–S stretching characteristics. These results provide insight into modulating the molecular arrangements of small‐molecule semiconducting units to alter the emission properties, as well as fabricating molecular devices adsorbed on surfaces via post‐modification.
  • Yoshihiko Mizukami, Kakeru Arai, Ryoma Nishiguchi, Norihiro Aiga, Satoshi Takeuchi, Osamu Iwanaga, Yoshihiro Miyake
    Chemistry Letters, 54(2) upaf010, Jan, 2025  Peer-reviewed
  • Norihiro Aiga, Toshiki Sugimoto
    Communications Materials, 5(1) 204, Sep, 2024  Peer-reviewedLead author
  • Norihiro Aiga, Satoshi Takeuchi
    The Journal of Physical Chemistry C, 126(31) 16227-16235, Sep, 2022  Peer-reviewedLead author

Presentations

 40

Teaching Experience

 3

Research Projects

 5