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NEWS & TOPICS

  • 2024/2/5 for students

    [For prospective students] The schedule of lab visits has been released.
    Table for lab visits 2023.  
       Date Time Place Staff in Charge Phone Number
    1st 2/7(Thu) 9:00, 10:00, 11:00 Uji Campus Main Building
    M-470C
    Masaharu Nakamura 0774-38-3180/090-4292-3180
    2nd 2/14(Wed) 9:00, 10:00, 11:00 Uji Campus Main Building
    M-470C
    Masaharu Nakamura 0774-38-3180/090-4292-3180
    3rd 2/15(Thu) 13:00, 14:00, 15:00
    16:00, 17:00
    Uji Campus Main Building
    M-470C
    Katsuhiro Isozaki
    Takahiro Doba
    0774-38-3182
    4th 2/16(Fri) 13:00, 14:00, 15:00
    16:00, 17:00
    Uji Campus Main Building
    M-470C
    Masaharu Nakamura 0774-38-3180/090-4292-3180
    5th 2/19(Mon) 13:00, 14:00, 15:00
    16:00, 17:00
    Uji Campus Main Building
    M-470C
    Masaharu Nakamura 0774-38-3180/090-4292-3180
    Click here to check access.
    On the morning of February 15, Uji area common joint information session will be held.
    Consult with us for times other than the set times.
    Please send e-mail to "masaharu_at_scl.kyoto-u.ac.jp". (Please convert "_at_" to "@".)
  • 2024/1/22 news

    TSK Corporation, of which Prof. Masaharu Nakamura is a director, was featured in the Chemical Daily.
    You can access from here!
  • 2023/12/26 news

    Dr. Doba has been awarded the 40th Inoue Research Award for Young Scientists. Congratulations!

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LATEST
PUBLIC
ATIONS


publications

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LATEST PUBLICATIONS

  • supramolecule

    "Two- and Four-Armed Hetero Porphyrin Dimers: Influence of the Number of Arms on the Stability and Specific Recognition Behaviour"
    Org. Biomol. Chem. 2021, 11, in press
  • mechanochemistry

    "Mechanochemical Synthesis of Magnesium-based Carbon Nucleophiles in Air and Their Use in Organic Synthesis"
    Nature Commun. 2021, 12, 6691
  • supramolecule

    "Synthesis of a Mechanically Planar Chiral and Axially Chiral [2]Rotaxane"
    Org. Lett. 2021, 23, 8678−8682

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ABOUT US

"Development of synthetic chemistry that enables
advanced utilization of unused chemical resources"

The motivation and ultimate purpose of our research is the "Development of industrially important and scientifically interesting organic synthetic reactions and contributing to the realization of a better world."

To achieve this goal, we aim to develop new catalysts and new substances that can contribute to the solution to the most relevant resource and energy challenges. We are also striving to discover, design, and realize organic molecule conversion reactions that are currently impossible.

Currently, 17 faculty members / researchers and 10 graduate students / research students / undergraduate students are engaged in research in this group.

Iron-catalyzed Organic Synthesis
Development of catalytic reactions that utilize earth-abundant metal elements such as iron, and synthesis of bioactive substances and electronic material compounds using these reactions.

Supramolecular/Superatomic Catalysis
Creation of functional metal complex catalysts and functional metal nanoparticles / cluster catalysts based on the self-assembly of amino acids and peptides.

Woody Biomass Transformation
Development of new reactions for the direct conversion of woody biomass, which is a largely unexplored, abundant, and renewable carbon resource.

Click here for a video introducing the laboratory at Uji Campus Open 2020!

RESEARCH

“Toward the best synthesis for Better Society”
We will work towards the goal of better and more sustainable society through the exploration of new methods for the synthesis of organic molecules from renewable sources, which will serve as the building blocks of a greener chemical industry.
While pursuing chemical studies, we will strive to become better scientists, to tackle the big issues of our generation, come up with new ideas and challenge the old ones.

TOPICS

ironiron_sp
supMOLsupMOL_sp
woodwood_sp
Research
  • ircels
  • icr