Updated on 2021/08/11


LIN Hao-Sheng
Graduate School of Engineering Chemical Systems Engineering 2 Assistant Professor
Graduate School
Graduate School of Engineering
Undergraduate School
School of Engineering Materials Science and Engineering
Assistant Professor
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Degree 2

  1. Ph.D. in Engineering ( 2020.9   The University of Tokyo ) 

  2. Master ( 2017.6   University of Science and Technology of China ) 

Research Interests 3

  1. Fullerene

  2. Organic Chemistry

  3. Solar Cells

Research Areas 2

  1. Natural Science / Biophysics, chemical physics and soft matter physics  / Organic Chemistry

  2. Energy Engineering / Earth resource engineering, Energy sciences  / Solar Cells

Current Research Project and SDGs 1

  1. Carbon cluster materials for high-performance solar cells

Research History 4

  1. Nagoya University   School of Engineering   Assistant Professor


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  2. Massachusetts Institute of Technology   Chemical Engineering   Researcher

    2019.9 - 2020.1

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    Country:United States

  3. The University of Tokyo   School of Engineering   Researcher

    2020.9 - 2021.3

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  4. The University of Tokyo   School of Engineering   Researcher

    2020.4 - 2020.9

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Education 2

  1. The University of Tokyo   School of Engineering   Mechanical Engineering

    2017.9 - 2020.9

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    Country: Japan

  2. University of Science and Technology of China   Department of Chemistry   Organic Chemistry

    2014.9 - 2017.6

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    Country: China

Professional Memberships 2

  1. Fullerene, Nanotubes, Graphene Society


  2. Chemical Society of Japan



Papers 1

  1. Cationic nitrogen-doped graphene as a p-type modifier for high-performance PEDOT:PSS hole transporters in organic solar cells

    Lin Hao-Sheng, Kaneko Takuhei, Ishikawa Soma, Jeon Il, Chae Sangwoo, Yana Takumi, Saito Nagahiro, Matsuo Yutaka

    JAPANESE JOURNAL OF APPLIED PHYSICS   Vol. 60 ( 7 )   2021.7

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    Language:Japanese   Publisher:Japanese Journal of Applied Physics  

    This research paper reports the enhanced hole-transporting ability of widely utilized poly(3,4-ethylenedioxythiophene)-poly(styrenesulfonate) (PEDOT:PSS) achieved by applying cationic nitrogen-doped graphene (CNG) as a p-type modifier for efficient organic solar cells (OSCs). The power conversion efficiency (PCE) of the CNG-coated PEDOT:PSS-applied OSC reaches 2.76%, which is an increase of 40% compared to that of the pristine PEDOT:PSS-applied OSC (1.96%). The significantly enhanced performance is contributed by the increased hole-transporting ability, and the improved interfacial morphology of PEDOT:PSS, which affords high-quality active layers.

    DOI: 10.35848/1347-4065/ac00fc

    Web of Science