The University of Tsukuba is the anchor institution of Tsukuba Science City — Japan’s premier science-and-technology hub, which is a convenient 45-minute train ride northeast of central Tokyo. The University encompasses 29 national research institutions and more than 200 private sector research institutions. The University operates on the principle that it is open to all.
The University of Tsukuba aims to cross the borders that separate a variety of organizations, such as those between nations, research institutions, and fields of study. The University’s network is expanding globally. In particular, the University has entered into seven campus-in-campus arrangements with universities in six countries and regions, thereby promoting close cooperative relationships between education and research. At present, the University hosts more than 3,000 study abroad students from more than 100 countries and regions of origin.
Collaboration is essential in order to achieve high-quality outcomes with limited resources. As an example, the University is actively engaged in an exchange of talent and joint research that goes beyond the conventional university framework at nationwide joint-use institutes that encompass the four fields of computational science, marine science, plant science, and plasma research.
The joint research being conducted with the research facilities within Tsukuba Science City is expanding into drug development, robotics engineering, space medicine, plant breeding, astrophysics, and sleep science, as well as a wide variety of interdisciplinary areas, leading to a greater number of superior research outcomes than can be achieved on a university scale alone.
The University is also proactively engaging in the support of venture corporations. Thus far, a total of 118 companies have originated from the University of Tsukuba, including Cyberdyne, Inc. All of these companies give back to society through their research outcomes.
A frontrunner in university reform in Japan, the University is creating a flexible education and research structure as well as a university system to meet the needs of the next generation. It aspires to be a comprehensive university, continuously meeting new challenges and developing new areas. The foremost mission of a university is to provide an environment that allows future leaders to realize their full potential. The University of Tsukuba gives students the opportunity develop their individuality and skills through an education that is backed by cutting-edge research.
The University of Tsukuba retains sole responsibility for content. © 2018 The University of Tsukuba.
1 February 2017 - 31 January 2018
Subject/journal group: All
The table to the right includes counts of all research outputs for University of Tsukuba published between 1 February 2017 - 31 January 2018 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.
Outputs by subject (WFC)
|Earth & Environmental Sciences||3||0.69||0.69|
Highlight of the month
High-quality, multilayer graphene key to advanced electronic devices
© LAGUNA DESIGN/Getty
Scientists in Japan have developed a new technique for growing multilayer graphene crystals on substrates that could be used in advanced electronic devices.
Materials like thick multilayer graphene (MLG) crystals can handle the large currents and high temperatures in advanced electronic devices. But current vapor deposition techniques for growing MLG introduce imperfections into its crystal structure, reducing the material’s performance.
A team of scientists in Japan, including researchers at the University of Tsukuba, has developed a technique that uses nickel-induced layer exchange to grow high-quality, uniform crystals of MLG directly on an insulating material.
By incorporating aluminium oxide and silicon oxide interlayers between the carbon and nickel layers, the team was able to control the growth of MLG crystals, opening the door for applications that combine advanced electronic devices with carbon materials.
- Appl. Phys. Lett. 111, 243104 (2017). doi: 10.1063/1.5010982
See more research highlights from University of Tsukuba
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19 Dec 2017
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Top articles by Altmetric score in current window
1 February 2017 - 31 January 2018
International vs. domestic collaboration by WFC
- 27.71% Domestic
- 72.29% International
Note: Hover over the graph to view the percentage of collaboration.
Top 10 domestic collaborators by WFC (97 total)
- University of Tsukuba, Japan
- Domestic institution
National Institute for Materials Science (NIMS), Japan
The University of Tokyo (UTokyo), Japan
National Institute of Advanced Industrial Science and Technology (AIST), Japan
Kyushu University, Japan
Kanazawa University (KU), Japan
Ritsumeikan University, Japan
High Energy Accelerator Research Organization (KEK), Japan
Okayama University, Japan
Osaka University, Japan
Top 10 international collaborators by WFC (644 total)
- University of Tsukuba, Japan
- Foreign institution
National Institute for Nuclear Physics (INFN), Italy
European Organization for Nuclear Research (CERN), Switzerland
French National Centre for Scientific Research (CNRS), France
Harvard University, United States of America (USA)
Helmholtz Association of German Research Centres, Germany
Max Planck Society, Germany
Brookhaven National Laboratory (BNL), United States of America (USA)
Mount Sinai Health System (MSHS), United States of America (USA)
Stanford University, United States of America (USA)
The Rockefeller University, United States of America (USA)
Note: Collaboration is determined by the weighted fractional count (WFC), which is listed in parentheses.
Affiliated joint institutions and consortia
- ALICE Collaboration, Switzerland
- CDF Collaboration, United States of America (USA)
- Expedition 302 Scientists, Sweden
- Expedition 343 Scientists, Japan
- Japanese Association for Marine Biology (JAMBIO), Japan
- Multiproxy Approach for the Reconstruction of the Glacial Ocean Surface (MARGO), Germany
- PHENIX Collaboration, United States of America (USA)
- The ATLAS Collaboration, Switzerland
Numerical information only is licensed under a Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International License.