S
Shu Seki
Researcher at Kyoto University
Publications - 547
Citations - 22063
Shu Seki is an academic researcher from Kyoto University. The author has contributed to research in topics: Electron mobility & Charge carrier. The author has an hindex of 68, co-authored 520 publications receiving 19030 citations. Previous affiliations of Shu Seki include Fukui University of Technology & Tampere University of Technology.
Papers
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Journal ArticleDOI
Excited-state intramolecular proton-transfer (ESIPT)-inspired solid state emitters
Vikas S. Padalkar,Shu Seki +1 more
TL;DR: This review highlights recently developed solid state ESIPT emitters with focus on molecular design strategies and their photophysical properties, reported in the last five years.
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Covalent Organic Frameworks with High Charge Carrier Mobility
Shun Wan,Felipe Gándara,Atsushi Asano,Hiroyasu Furukawa,Akinori Saeki,Sanjeev K. Dey,Lei Liao,Michael W. Ambrogio,Youssry Y. Botros,Youssry Y. Botros,Youssry Y. Botros,Xiangfeng Duan,Shu Seki,J. Fraser Stoddart,Omar M. Yaghi +14 more
TL;DR: Two types of covalent organic frameworks (COFs) having a porphyrin unit have been synthesized as discussed by the authors, and the two COFs have shown very high charge carrier mobility values (8.1 cm2 V−1 s−1).
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Photoconductive coaxial nanotubes of molecularly connected electron donor and acceptor layers.
Yohei Yamamoto,Takanori Fukushima,Yuki Suna,Noriyuki Ishii,Akinori Saeki,Shu Seki,Seiichi Tagawa,Masateru Taniguchi,Tomoji Kawai,Takuzo Aida +9 more
TL;DR: Controlled self-assembly of a trinitrofluorenone-appended gemini-shaped amphiphilic hexabenzocoronene selectively formed nanotubes or microfibers with different photochemical properties are presented.
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Improved Understanding of the Electronic and Energetic Landscapes of Perovskite Solar Cells: High Local Charge Carrier Mobility, Reduced Recombination, and Extremely Shallow Traps
TL;DR: Kinetic and frequency analysis of the transient complex conductivity strongly support the superiority of the perovskite, based on a significant suppression of charge recombination, an extremely shallow trap depth (10 meV), and a low concentration of these trapped states (less than 10%).
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Light-harvesting conjugated microporous polymers: rapid and highly efficient flow of light energy with a porous polyphenylene framework as antenna.
TL;DR: The synthesis and functions of a polyphenylene-based conjugated microporous polymer (PP-CMP), recently designed and synthesized by Suzuki polycondensation reaction, are described, which demonstrates the usefulness of CMPs in the exploration of pi-electronic functions, in addition to their gas adsorption properties thus far reported.