Tokyo University of Agriculture and Technology (TUAT)
東京農工大学

Japan

Tokyo University of Agriculture and Technology (TUAT) has a long history of improving society through advances in agricultural science and engineering. Ever since its beginnings in the 1870s as two government departments that merged in 1949 to form a university, TUAT has placed a strong emphasis on improving the lives of people in Japan and beyond. Input from a broad range of perspectives is required to address major global challenges such as environmental degradation, energy and food supply issues, and obstacles to realizing a sustainable society. The university’s vision is to realize globally competitive research capabilities and to become a science and technology hub for developing a sustainable society. TUAT is well known for its strong research collaboration with industry and for striving to create new technology.

Institute of Global Innovation Research

In 2014, TUAT was selected by the Japanese government as one of 12 national universities rapidly promoting global research. To enhance the university’s research capabilities in agriculture and engineering, the university established the Institute of Global Innovation Research (GIR). This institute prioritizes research in three key areas: food, energy and life sciences. It is developing strategic research teams with the aim of promoting international collaborations.

Wide range of choices in agriculture and engineering

The university offers a very broad range of courses. Its Faculty of Agriculture has courses in biological production, applied biological science, environmental and natural resource science, eco-regional science, and veterinary medicine. And its Faculty of Engineering offers courses in biotechnology and life sciences, applied chemistry, organic and polymer materials chemistry, chemical engineering, mechanical systems engineering, applied physics, electrical and electronic engineering, and computer and information sciences. The university aims to nurture leadership ability in students and to equip them to solve global issues through the fields of agriculture and engineering.

Well-known alumni

Notable TUAT alumni include Professor Akira Endo, Japan Prize laureate; Lasker-Debakey, Clinical Medical Research Award winner; Morshed Khan, former foreign minister of Bangladesh; Ginandjar Kartasasmita, former minister for mining and energy in Indonesia; Hirohide Hamashima, engineer at Bridgestone F1 Tire; and Susumu Ohno, author of the book Evolution by Gene Duplication.

Tokyo University of Agriculture and Technology retains sole responsibility for content. © 2017 Tokyo University of Agriculture and Technology (TUAT).

1 February 2016 - 31 January 2017

Region: Global
Subject/journal group: All

The table to the right includes counts of all research outputs for Tokyo University of Agriculture and Technology (TUAT) published between 1 February 2016 - 31 January 2017 which are tracked by the Nature Index.

Hover over the donut graph to view the WFC output for each subject. Below, the same research outputs are grouped by subject. Click on the subject to drill-down into a list of articles organized by journal, and then by title.

Note: Articles may be assigned to more than one subject area.

AC FC WFC
37 18.75 18.75

Outputs by subject (WFC)

Subject AC FC WFC
Chemistry 27 15.97 15.97
Physical Sciences 8 3.31 3.31
Life Sciences 4 1.05 1.05

Highlight of the month: Tokyo University of Agriculture and Technology (TUAT)

Bronze battery goes for gold

© LAGUNA DESIGN/Science Photo Library/Getty

© LAGUNA DESIGN/Science Photo Library/Getty

Supercapacitors are electricity storage devices that generate short bursts of power thanks to their fast charge-discharge capability. Some cars use them to capture and store energy during braking, that they can later use to restart the engine. Increasing their regenerative powers could reduce fuel consumption even further.

Researchers at the Tokyo University of Agriculture and Technology and their colleagues created a hybrid electrode for supercapacitors by enriching a carbon nanotube with nanocrystals of a titanium dioxide and bronze compound. The crystals were uniformly spread across the inner nanotube walls via a rapid spinning process and their size was restricted by a hot water treatment. These features, combined with the high conductivity of bronze, enables the ultrafast flow of electrically charged lithium ions through the fuel cell to deliver high power quickly.

The team’s hybrid electrode retained its excellent power capability over 300 charge-discharge cycles and could inspire the next generation of high-energy supercapacitors.

  1. Advanced Materials 28,6751–6757 (2016). doi: 10.1002/adma.201600798

View the article on the Nature Index

1 February 2016 - 31 January 2017

International vs. domestic collaboration by WFC

  • 54.8% Domestic
  • 45.2% International

Note: Hover over the graph to view the percentage of collaboration.

Top 10 domestic collaborators by WFC (19 total)

  • Tokyo University of Agriculture and Technology (TUAT), Japan
  • Domestic institution
  1. Tokyo Institute of Technology (Tokyo Tech), Japan (7.67)
    3.36
    4.31
  2. The University of Tokyo (UTokyo), Japan (4.88)
    2.48
    2.39
  3. Department of Chemistry and Biotechnology, UTokyo, Japan (3.67)
    2.32
    1.35
  4. Tohoku University, Japan (2)
    1
    1
  5. Nagoya University, Japan (1.67)
    0.28
    1.38
  6. Saitama University, Japan (1.32)
    1.06
    0.25
  7. Tamura Corporation, Japan (1.17)
    0.79
    0.38
  8. National Institute of Information and Communications Technology (NICT), Japan (1.08)
    0.79
    0.29
  9. Rikkyo University, Japan (1)
    0.60
    0.40
  10. Gakushuin University, Japan (1)
    0.17
    0.83

Note: Collaboration is determined by the weighted fractional count (WFC), which is listed in parentheses.

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