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Nishida Jun'ichi

  (西田 純一)

Profile Information

Affiliation
Graduate School of Engineering, University of Hyogo
Degree
Doctor of Science

J-GLOBAL ID
200901016173046458
researchmap Member ID
1000247345

Education

 2

Awards

 2

Major Papers

 124
  • Takeru Inoue, Yuuka Matsuura, Koki Horii, Akihito Konishi, Jun-ichi Nishida, Makoto Yasuda, Takeshi Kawase
    Chemical Communications, 60(13) 1735-1738, Jan 12, 2024  Peer-reviewed
    N-di(isopropyl)phenyl-2-azaphenalenyl radical cations were obtained as a dark brown air-sensitive crystalline compound. The high HOMA values and the ACID calculation indicate relatively high aromatic character of a 5,8-di-tert-butyl derivative, and...
  • Hiroshi Nishimoto, Tomofumi Kadoya, Takeshi Kawase, Jun‐ichi Nishida
    Asian Journal of Organic Chemistry, 12(12), Nov 9, 2023  Peer-reviewedLast authorCorresponding author
    Abstract Despite having an asymmetric structure, 2‐(thiopyran‐4‐ylidene)‐1,3‐benzodithiole (TP‐BT) is a good p‐type semiconductor containing isotropic three‐dimensional (3D) intermolecular interactions. Moreover, its π‐extended analogs can potentially work as organic electronic materials. Herein, a fused‐type π‐extended analog containing an extra benzene ring on the benzodithiole unit, i. e., 2‐(thiopyran‐4‐ylidene)‐1,3‐naphtho[2,3‐d]dithiole (TP‐NT), and three σ‐bonded‐type π‐extended analogs, i. e., phenyl‐, naphthyl‐, and anthryl‐substituted analogs (Ph‐TP‐BT, Nap‐TP‐BT, and Ant‐TP‐BT, respectively), were prepared and their molecular arrangements and organic field‐effect transistor (OFET) properties were investigated. TP‐NT formed a herringbone arrangement with 3D intermolecular interactions similar to that of the parent TP‐BT. Meanwhile, Ant‐TP‐BT formed a bilayer‐type layered herringbone arrangement. Since the highest occupied molecular orbital and the lowest unoccupied molecular orbital are located on the TP‐BT and anthracene units, respectively, a unique donor–acceptor separated network was formed. In OFETs prepared via a vapor deposition method using the σ‐bonded‐type analogs, slightly lower mobilities (0.1 to 8×10−3 cm2/Vs) than that of TP‐NT (0.1 cm2/Vs) were observed. Upon photo‐irradiation, the OFET of Ant‐TP‐BT exhibited a larger threshold voltage shift and an increase in the off current compared with TP‐NT. The σ‐bonded‐type analogs showed a larger photo‐response effect than TP‐NT derived from the donor–acceptor molecular structure.
  • Jun‐Ichi Nishida, Kouhei Matsuno, Takeshi Kawase
    Asian Journal of Organic Chemistry, 11(4), Apr, 2022  Peer-reviewedLead authorCorresponding author
  • Jun-ichi Nishida, Yoshiki Morikawa, Akito Hashimoto, Yasuyuki Kita, Hiroshi Nishimoto, Tomofumi Kadoya, Hiroyasu Sato, Takeshi Kawase
    Materials Advances, 2(24) 7861-7868, 2021  Peer-reviewedCorresponding author
  • Jun-ichi Nishida, Yoshihiro Kawakami, Shun Yamamoto, Yasunori Matsui, Hiroshi Ikeda, Yasukazu Hirao, Takeshi Kawase
    European Journal of Organic Chemistry, 2019(23) 3735-3743, Jun 23, 2019  Peer-reviewedLead authorCorresponding author
  • Yasuyuki Kita, Jun-ichi Nishida, Shota Nishida, Yasunori Matsui, Hiroshi Ikeda, Yasukazu Hirao, Takeshi Kawase
    ChemPhotoChem, 2(1) 42-52, Jan, 2018  Peer-reviewedCorresponding author

Misc.

 8

Books and Other Publications

 2

Presentations

 59

Teaching Experience

 4

Professional Memberships

 4

Research Projects

 12