Tokyo University of Science
Tokyo University of Science (Japanese: 東京理科大学, Hepburn: Tōkyō Rika Daigaku; TUS), founded in 1881, is a private research university in Japan specializing in science, engineering, and technology, and it is recognized as one of the oldest and largest institutions of its kind in the country.[1] With a mission to "build a better future with science," TUS emphasizes innovation for sustainable development, operating across multiple campuses primarily in the greater Tokyo area, including the main Kagurazaka Campus in Shinjuku, the Noda Campus in Chiba Prefecture, and the Katsushika Campus in eastern Tokyo.[2] As of 2021, the university enrolls approximately 19,000 undergraduate and graduate students, supported by over 1,700 faculty members across seven undergraduate schools, seven graduate schools, and around 390 research laboratories focused on fields such as physics, chemistry, biology, information science, and applied engineering.[1] It has produced more than 210,000 alumni and maintains partnerships with 77 universities worldwide, fostering international collaboration.[1] TUS traces its origins to the Tokyo Academy of Physics (Tokyo Butsurigaku Koshujo), established in September 1881 by 21 recent science graduates from the University of Tokyo, who sought to democratize access to scientific education during Japan's Meiji era, when such training was limited to elite institutions.[2] Renamed the Tokyo College of Science in 1883, it expanded through the early 20th century, incorporating evening classes and new departments in applied sciences, before being reorganized as the full-fledged Tokyo University of Science in 1949 under post-war educational reforms.[2] Upholding the philosophy of "achieving excellence," TUS historically maintained rigorous standards, with graduation rates below 10% in its early years to ensure only highly capable students advanced, a tradition that continues to emphasize practical and theoretical mastery.[3] Today, it stands as Japan's only comprehensive private university dedicated exclusively to science and technology disciplines, contributing to global challenges aligned with the United Nations Sustainable Development Goals.[2] In recent international rankings, TUS is positioned 801–850 in the QS World University Rankings 2026 and 39th among Japanese universities in the Times Higher Education Japan University Rankings 2025, reflecting its strengths in research quality and industry engagement.[4][5] The university has garnered acclaim for alumni and faculty achievements, including the 2015 Nobel Prize in Physiology or Medicine awarded to TUS graduate Satoshi Ōmura for his discoveries in avermectin, a breakthrough in treatments for parasitic diseases.[6] TUS boasts a 96% student career placement rate as of recent reports, with over 45% advancing to graduate studies as of 2021.[1]History
Founding and early years
The Tokyo University of Science traces its origins to 1881, when it was established as the Tokyo Academy of Physics (Tokyo Butsurigaku Koshujo) by 21 recent graduates from the Department of Physics at the University of Tokyo. These founders, motivated by the need for practical scientific education to support Japan's rapid modernization during the Meiji era, aimed to cultivate talent for national development through hands-on training in applied sciences, contrasting with the more theoretical focus of the imperial university.[2] In 1883, the institution was renamed the Tokyo College of Science (Tokyo Butsuri Gakko), marking its expansion beyond physics to include departments in chemistry and mathematics, thereby broadening its curriculum to encompass foundational and applied aspects of the natural sciences. Hitoshi Terao, one of the early leaders, became the first president, guiding the college's emphasis on rigorous instruction without entrance examinations, where students underwent intensive training with a graduation rate of less than 10% to ensure excellence in scientific proficiency.[2] The college's early years were characterized by modest operations, often borrowing facilities and relying on a sustaining alliance of supporters to maintain its mission amid the era's push for technological advancement and industrialization. Its reputation grew through this demanding educational approach, producing graduates who contributed to Japan's scientific progress. The institution gained cultural prominence when featured in Natsume Soseki's 1906 novel Botchan, where the protagonist, a recent physics graduate from the college, embarks on a teaching career, reflecting the era's blend of scientific aspiration and personal challenges.[7] By the pre-war period through the 1940s, the Tokyo College of Science had solidified its role as a key private educator in the sciences, with a curriculum centered on laboratory work and theoretical foundations in physics, chemistry, and mathematics, enrolling a select group of students committed to practical applications for societal benefit.[2]Post-war development and modern expansions
Following Japan's post-World War II educational reforms, the Tokyo College of Science was reorganized in 1949 under the new national university system, attaining full university status as the Tokyo University of Science (TUS) with initial faculties focused on science and engineering disciplines.[2] This transition aligned with the country's broader push to democratize higher education and rebuild scientific infrastructure, positioning TUS as Japan's only comprehensive private university dedicated exclusively to science and technology fields.[2] During the 1950s and 1970s, TUS underwent significant expansion, establishing additional departments in applied sciences and engineering while developing new campuses to accommodate growing demand for technical education amid Japan's economic miracle. Graduate programs were introduced in 1957 to support advanced research, marking a shift toward fostering specialized expertise in areas like physics and chemistry. By the 1981 centennial celebrations of its 1881 founding, TUS had solidified its role as a key institution for scientific innovation, hosting events that highlighted its contributions to national development.[2] In the 2000s, TUS pursued institutional growth through affiliations and mergers with regional schools, incorporating the Tokyo University of Science, Yamaguchi (established 1995) and Tokyo University of Science, Suwa (opened 2002 via public-private partnership), which expanded access to science education in rural areas before some transitioned to independent public entities like Sanyo-Onoda City University in 2016.[8] These moves enhanced TUS's national footprint without diluting its core mission. By 2025, enrollment had grown to approximately 19,000 students, reflecting deliberate efforts to boost gender diversity—such as women-only admission quotas implemented from 2024—and international intake, with around 700 non-Japanese students enrolled to promote global collaboration.[1][9] Recent milestones include the 2024 Nobel Peace Prize awarded to Nihon Hidankyo, with co-chair Terumi Tanaka, a TUS physics alumnus (class of 1960), recognizing survivor advocacy against nuclear weapons and underscoring the university's indirect ties to peace initiatives rooted in scientific ethics. In 2025, TUS advanced AI and sustainability research, launching AI-driven methods for automated material analysis to accelerate sustainable design and projects on multi-hazard urban disaster prevention for resilient communities.[10][11][12]Campuses and Facilities
Campuses
The Tokyo University of Science operates four main campuses across Japan, each designed to support specific educational and research needs while contributing to the university's overall mission in science and technology.[13] The Kagurazaka Campus, located at 1-3 Kagurazaka, Shinjuku-ku, Tokyo 162-8601 (coordinates 35°41′58″N 139°44′29″E), serves as the central administrative hub and hosts core science faculties.[14][15] Established in 1881 alongside the university's founding, it provides urban accessibility, being just a 5-minute walk from Iidabashi Station on multiple Tokyo Metro and JR lines.[1][14] This campus facilitates collaboration with government, business, and community entities through its concentration of educational and research facilities.[14] The Katsushika Campus, situated at 6-3-1 Niijuku, Katsushika-ku, Tokyo 125-8585, emphasizes engineering and pharmacy programs in an interdisciplinary "academic park" environment.[16] Opened in April 2013, it features modern, spacious facilities for advanced research and community engagement, located an 8-minute walk from Kanamachi Station.[16] The site spans approximately 6 hectares (58,000 square meters), supporting hands-on learning in technical fields.[16][17] In Chiba Prefecture, the Noda Campus at 2641 Yamazaki, Noda-shi 278-8510, stands as the largest site, developed primarily in the 1990s and early 2000s to foster advanced research and international programs.[18][19] It occupies a natural setting with an open layout, including eco-friendly buildings, athletic grounds, and specialized research centers like the Photocatalysis International Research Center.[18] Accessible via a 5-minute walk from Unga Station, the campus promotes organic collaboration among departments and hosts international student initiatives through facilities such as the Noda International Community House.[18] The Oshamambe Campus in Hokkaido, at 102-1 Tomino, Oshamambe-cho, Yamakoshi-gun 049-3514, functions as a remote satellite for management studies and environmental fieldwork, established in 2007 to leverage its isolated natural landscape for specialized laboratories and field studies.[20][21] This site emphasizes sustainable development and holistic student training in a serene, rural environment conducive to focused research.[20] Collectively, these campuses cover a total area of 961,280 square meters (approximately 96 hectares) and accommodate approximately 19,000 students, with the majority distributed across the Tokyo-area sites for undergraduate and graduate programs, while Noda and Oshamambe support research-intensive and specialized cohorts.[1]Libraries and museums
Tokyo University of Science maintains a network of five libraries across its campuses, collectively holding approximately 880,000 volumes, making it one of Japan's largest library systems among engineering-focused universities.[22] These facilities support research and education in science and engineering, with access to electronic journals and databases through a next-generation digital library system.[23] User registration is required for students, faculty, and staff to borrow materials and utilize online resources.[22] The Kagurazaka Library, located on the Kagurazaka Campus in central Tokyo, serves as the central hub for the university's library services, occupying multiple floors in Building No. 1 and providing comprehensive resources for engineering and science studies.[22] Specialized collections are available at other campuses, including the Noda Library on the Noda Campus in Chiba Prefecture, which emphasizes research-oriented materials in science and technology.[22] The Katsushika Library, situated on the Katsushika Campus in eastern Tokyo, focuses on engineering disciplines and supports interdisciplinary research activities.[16] Meanwhile, the Oshamambe Library on the Oshamambe Campus in Hokkaido caters to programs in environmental sciences, offering resources aligned with field research in natural and ecological systems.[20] The Fujimi Library, on the smaller Fujimi Campus, complements these with additional holdings for science education.[22] In addition to its libraries, the university operates museum facilities dedicated to science education and historical preservation. The Museum of Science, located on the Kagurazaka Campus, is a two-story wooden structure built in 1991 to commemorate the university's 110th anniversary and modeled after the original Meiji-era Tokyo Academy of Physics building.[24] It features permanent exhibits on the history of science and technology, including artifacts related to the university's foundational contributions to physics and engineering, as well as a special exhibition on Nobel Prize winner Satoshi Ōmura's work in discovering avermectin.[25] Admission is free, and the museum is open to the public during specified hours.[24] Complementing this is the TUS Science Dojo, an exhibit space on the first floor of the Katsushika Library, which highlights ongoing university research through interactive displays.[26] Key exhibits include demonstrations of photocatalysis using titanium dioxide, pioneered by Professor Akira Fujishima, and showcases of research by other faculty in materials science and related fields.[26] This facility operates free of charge from 10:00 a.m. to 4:00 p.m., Monday through Friday, promoting public engagement with contemporary scientific advancements.[26]Research and athletic facilities
The Research Institute for Biomedical Sciences, located at the Noda Campus, serves as a key hub for advanced biomedical research, with a particular emphasis on immunology through its Division of Immunology and Allergy, where studies explore redox regulation in immune cell fate and tumor-infiltrating lymphocyte diversity.[18][27] This institute facilitates interdisciplinary collaborations in a research park-style environment, supporting investigations into molecular pathology and cell biology relevant to disease mechanisms.[18] At the Katsushika Campus, the Department of Global Fire Science and Technology, part of the Research Institute for Science and Technology (RIST), houses specialized laboratories dedicated to fire safety science, including experimental facilities for combustion analysis and fire suppression technologies.[16][28] Established in 1981, this center promotes joint usage for collaborative projects on fire dynamics and prevention, contributing to global standards in fire safety engineering.[28] Additionally, the Research Center for Fire Safety Science, highlighted in recent institutional updates, enhances testing capabilities for real-world applications in urban fire risk mitigation.[29] Athletic facilities at Tokyo University of Science include gymnasiums and sports fields on the Kagurazaka and Noda campuses, providing spaces for physical training and recreational activities that promote student well-being.[30] These amenities support a wide array of student clubs participating in inter-university competitions, fostering teamwork and competitive spirit across disciplines like track, basketball, and martial arts.[31] The Morito Memorial Hall at the Kagurazaka Campus functions as a multi-purpose venue for academic lectures, conferences, and cultural events, accommodating gatherings that advance scholarly discourse and community engagement.[14][32] Recent developments include the Center for Data Science, which integrates AI-driven analysis across biomedical and engineering fields, enabling high-performance computing for data-intensive research projects.[33] At the Oshamambe Campus, facilities under the Division of Integrated Science support environmental research initiatives, contributing to sustainability studies in natural resource management.[20][34] Student housing options span multiple campuses, including the Noda International Community House with twin shared rooms designed for international residents, alongside dining facilities offering balanced meals to support daily academic life.[35] These accommodations, available across sites like Kagurazaka and Katsushika, provide convenient access to campus resources and can house over 1,000 students in total.[36]Academic Programs
Undergraduate schools
The undergraduate programs at Tokyo University of Science (TUS) are organized into seven faculties, offering bachelor's degrees in science, engineering, pharmaceutical sciences, and management, with a total enrollment of approximately 16,000 students as of 2024. These programs emphasize foundational education in STEM fields, preparing students for advanced study or professional careers through a curriculum that integrates theoretical knowledge with practical applications.[37] The Faculty of Science Division I focuses on core scientific disciplines, including departments of mathematics, physics, chemistry, applied mathematics, applied physics, and applied chemistry, where students engage in rigorous training in fundamental principles and experimental methods.[38] Complementing this, the Faculty of Science Division II, operating as a night division for working students, covers similar areas with an emphasis on applied sciences such as chemistry and applied physics, allowing flexible access to bachelor's-level education in these fields.[39] The Faculty of Engineering provides comprehensive training in technical disciplines, with departments in mechanical engineering, electrical engineering, civil engineering, architecture, industrial chemistry, applied physics, and information sciences, fostering skills in design, innovation, and problem-solving through project-based learning.[40] The Faculty of Pharmaceutical Sciences offers a six-year integrated program in the Department of Pharmacy, combining foundational sciences with clinical training to develop professionals in drug development and healthcare.[41] The School of Management delivers business-oriented education through its three departments—Management, Business Economics, and International Design Management—equipping students with analytical and leadership skills tailored to science and technology industries.[42] Additional faculties, such as Science and Technology and Advanced Engineering, extend these offerings with departments in applied biological science, materials science, electrical engineering, and robotics, promoting interdisciplinary approaches across biology, materials, and emerging technologies. Most undergraduate programs are conducted in Japanese.[43][44] Admission to TUS undergraduate programs is highly competitive, primarily through Japan's national Common Test for University Admissions followed by faculty-specific entrance examinations, with international applicants also evaluated via the Examination for Japanese University Admission for International Students (EJU) and English proficiency tests.[45][46] The curriculum across all faculties prioritizes hands-on laboratory work, experimental research, and interdisciplinary courses that bridge science and engineering, blending practical experience with ethical and global perspectives to cultivate versatile graduates.[37] Degrees awarded include the Bachelor of Science and Bachelor of Engineering, typically completed in four years (or six for pharmacy).[1]Graduate schools
The Graduate School of Science at Tokyo University of Science comprises six departments—Mathematics, Physics, Chemistry, Applied Mathematics, Applied Physics, and Mathematics and Science Education—offering master's and doctoral programs that emphasize advanced research in fundamental and applied sciences, including theoretical physics, quantum chemistry, and mathematical modeling.[47] These programs require students to complete coursework, conduct original research under faculty supervision, and submit a thesis for the doctoral degree, fostering skills in experimental design and data analysis relevant to emerging technologies. With 658 students enrolled as of May 2024, the school promotes interdisciplinary collaborations, such as exchanges with other universities' physics and applied physics departments.[47] The Graduate School of Engineering includes five departments—Architecture, Industrial Chemistry, Electrical Engineering, Information and Computer Technology, and Mechanical Engineering—focusing on master's and doctoral training in materials science, systems engineering, and sustainable infrastructure development.[48] Students engage in thesis-based research addressing practical challenges like advanced materials for electronics and environmental systems optimization, with programs structured around two years for master's and three years for doctorates, including mandatory seminars and publications. This school highlights joint initiatives with industry partners to translate research into real-world applications, such as collaborative projects on energy-efficient materials.[48] The Graduate School of Management includes programs in innovation studies, such as the Department of Management of Technology, providing master's and doctoral programs centered on innovation management, intellectual property, and technology commercialization, integrating science with business strategies. Degree structures involve coursework in innovation theory, case studies, and a research thesis, preparing graduates for roles in R&D leadership and policy-making. Key features include partnerships with corporations for applied projects and international scholarships supporting approximately 20% of students, enabling global research mobility. Across all seven graduate schools—Science, Pharmaceutical Sciences, Engineering, Science and Technology, Advanced Engineering, Management, and Biological Sciences—the university enrolls about 2,900 postgraduates as of 2025. Most graduate programs are conducted in Japanese, with some English-taught options available. These PhD tracks emphasize thesis requirements and peer-reviewed publications in high-impact journals, supported by dedicated advising and industry-linked opportunities that enhance employability in academia and industry.[49][37]Special training and research institutes
The Special Training Course for Teachers at Tokyo University of Science is a one-year night school program designed for university graduates seeking to enhance their expertise in mathematics education.[50] Established to cultivate highly capable science educators, the course emphasizes deepening knowledge in mathematics while fulfilling the requirements of the School Teachers License Act, allowing participants to complete 30 units and obtain a Mathematics Specialist License for junior high or senior high school teaching.[50] This program supports the development of educators with strong academic and practical skills in science, particularly mathematics, contributing to improved teaching quality in Japan's secondary education system.[50] The university maintains several dedicated research institutes that facilitate advanced, interdisciplinary investigations outside its core degree programs. The Research Institute for Science and Technology (RIST), the largest such organization, coordinates collaborative efforts across science and engineering disciplines to foster innovative human resources and establish an international research hub.[33][51] RIST includes specialized sub-units such as the Center for Fire Science and Technology, which focuses on fire prevention, suppression technologies, and material safety through experimental and simulation-based studies, and initiatives in space utilization, including the Research Center for Space System Innovation that explores satellite technologies and microgravity applications.[52][53] The Research Institute of Biomedical Sciences (RIBS) concentrates on cutting-edge biomedical research, with a particular emphasis on immunobiology, including the regulation of inflammatory and immune diseases, nucleic acid drug discovery, and molecular mechanisms of immune responses.[54][55][56] Supporting these efforts, the University Research Administration Center manages grant acquisition, research funding procedures, and technical consultations to streamline administrative processes for faculty and researchers.[57] This center facilitates access to competitive funding, such as Grants-in-Aid for Scientific Research, ensuring efficient resource allocation for high-impact projects.[58] The university's research activities yield a substantial patent output, with 117 patents published in Japan in 2024, reflecting its contributions to technological innovation across science and engineering fields.[59] In 2025, Tokyo University of Science expanded its quantum computing initiatives through the establishment of the IScT-QARD (Institute for Science and Technology - Quantum Advanced Research and Development), a base for quantum product development that builds on RIST's framework to advance superconducting quantum technologies and simulation applications.[60] This expansion supports interdisciplinary quantum research, including single-photon sources and parametric oscillators, positioning the university as a key player in Japan's quantum innovation ecosystem.[61][62]Rankings and Reputation
Global and national university rankings
Tokyo University of Science (TUS) features prominently in major global and national university rankings, underscoring its reputation as a key player in Japan's higher education landscape, particularly in science and technology fields. These rankings evaluate institutions based on criteria such as research output, academic reputation, faculty quality, and international collaboration. In the QS World University Rankings 2026, TUS is positioned in the 801-850 band globally and ranks 18th among Japanese universities.[4] The Times Higher Education (THE) World University Rankings 2026 places TUS in the 1201-1500 range worldwide. In the THE Japan University Rankings 2025, TUS ranks 39th nationally.[63][64] According to the Academic Ranking of World Universities (ARWU, also known as the Shanghai Ranking) 2025, TUS falls within the 801-900 global band and holds the 21-24th position nationally in Japan.[65] The US News & World Report Best Global Universities 2025 ranks TUS 1372nd overall globally and 32nd in Japan.[66] EduRank's 2025 overall rankings list TUS at 523rd globally and 17th in Japan, with notable upward trends in research impact evidenced by rising publication volumes and citation rates over recent years.[67]| Ranking Body | Year | Global Rank | National Rank (Japan) |
|---|---|---|---|
| QS World University Rankings | 2026 | 801-850 | 18th |
| Times Higher Education World University Rankings | 2026 | 1201-1500 | - |
| THE Japan University Rankings | 2025 | - | 39th |
| ARWU (Shanghai Ranking) | 2025 | 801-900 | 21-24th |
| US News Best Global Universities | 2025 | 1372 | 32nd |
| EduRank | 2025 | 523 | 17th |
Subject and graduate rankings
In the QS World University Rankings by Subject 2025, Tokyo University of Science achieved positions in the 251-300 band for Physics & Astronomy and the 201-250 band for Chemistry, reflecting its strengths in fundamental scientific research and academic reputation within these disciplines.[68] The university also placed in the 301-350 range for Engineering - Mechanical, Aeronautical & Manufacturing, underscoring its contributions to applied sciences and industry-relevant innovations.[69] For graduate programs, Tokyo University of Science's School of Management ranked second in Japan among business schools with significant international influence according to the Eduniversal rankings for 2024, highlighting the employability and global recognition of its management graduates in a science-focused context.[70] In the biological sciences, Tokyo University of Science is ranked 663 globally in Biology and Biochemistry by U.S. News & World Report's Best Global Universities 2025, with particular prominence in pharmacology attributable to the legacy of alumnus Satoshi Ōmura, the 2015 Nobel laureate in Physiology or Medicine whose doctoral work at the university advanced microbial-derived drug discovery.[66][6] This positioning emphasizes the institution's role in fostering high-impact research in life sciences, particularly through interdisciplinary approaches to pharmaceutical development.Alumni and employability rankings
In the Times Higher Education Alma Mater Index 2017, which assesses universities based on their production of chief executives from Fortune Global 500 companies, Tokyo University of Science ranked 28th globally and third among Japanese institutions, behind only the University of Tokyo and Kyoto University, having educated four such CEOs.[71] This ranking underscores the university's historical strength in fostering business leaders, particularly in technology-driven sectors. Tokyo University of Science demonstrates strong graduate employability, particularly in research and development roles within Japan's technology industry. In the QS Graduate Employability Ranking 2022, it placed 10th overall in Japan (third among private universities) and 151-160th globally, reflecting high employer reputation and successful alumni outcomes in competitive fields.[72] The Center for World University Rankings 2024 further positions it 748th worldwide for employability, highlighting its effectiveness in preparing graduates for the workforce.[73] Graduates benefit from robust industry connections, with many securing positions at leading firms such as Sony and Toyota, where TUS alumni contribute to innovation in engineering and applied sciences.[21] The university's reputation is bolstered by the achievements of notable alumni, including Satoshi Ōmura, who received the 2015 Nobel Prize in Physiology or Medicine for his discoveries on avermectin, its derivative ivermectin, and applications in treatments for parasitic infections.[6] Such high-impact contributions enhance the perceived value of a TUS degree, attracting employers seeking talent with proven research excellence and elevating alumni networks in global R&D.International Relations
Academic exchange agreements
Tokyo University of Science (TUS) has forged academic exchange agreements with numerous overseas institutions to foster student and faculty mobility, joint research initiatives, and cultural exchange. These partnerships emphasize collaboration in core fields such as physics and engineering, enabling shared resources, co-authored publications, and interdisciplinary projects. As of February 2025, TUS holds agreements with 81 universities and 3 institutions across 31 countries and regions, an expansion from 75 agreements in 2016.[74][45] Prominent partners include multiple campuses within the University of California system in the United States, such as the University of California, Davis (agreement signed in 2006), University of California, Santa Barbara (2006), and University of California, Santa Cruz (2006), where joint efforts have focused on advanced research in physics, materials science, and engineering applications.[75][76][77] In Asia, key collaborations encompass Zhejiang University in China (agreement in 2008, emphasizing science and technology exchanges) and the Indian Institute of Science (memorandum signed in 2019, targeting joint research in engineering and physics).[78][79] These agreements support over 200 annual student mobilities, including outbound and inbound exchanges, along with faculty visits and collaborative workshops. TUS also offers dual-degree programs through select partnerships, allowing students to earn qualifications from both TUS and partner institutions in fields like industrial administration, materials science, and engineering; examples include arrangements with National Yang Ming Chiao Tung University (Taiwan), Taipei Medical University (Taiwan), and National Cheng Kung University (Taiwan).[80][81] A notable development is the collaboration under the ESA/JAXA JEREMI project, involving TUS researchers in joint space science efforts with European Space Agency affiliates to study microgravity fluid phenomena.[82]International programs and collaborations
Tokyo University of Science (TUS) facilitates student mobility through exchange programs and double degree initiatives, enabling its students to study abroad at partner institutions. These include semester-long exchanges and specialized double master's programs, such as those with National Yang Ming Chiao Tung University and Taipei Medical University in Taiwan, focusing on fields like industrial administration and materials science. While exact annual outbound numbers are not publicly detailed, these programs enhance global competency by allowing participants to earn credits toward TUS degrees while meeting partner requirements.[80] The university supports incoming international students with select English-taught courses, particularly in graduate programs, though most undergraduate instruction remains in Japanese. As of May 2021, TUS hosts 719 international students, representing about 3.8% of its total enrollment of 19,033, fostering a diverse campus environment across its four locations.[1] Scholarships for international students are primarily external, including Japanese government (MEXT) awards that can cover full tuition and living expenses, with TUS facilitating applications but not offering dedicated in-house programs for undergraduates or master's levels.[4][45][83] In joint research, TUS collaborates on advanced projects, notably in space technology through its Research Center for Space System Innovation, including partnerships with the Japan Aerospace Exploration Agency (JAXA) and JAMSS for payload development like the Haven-1 mission. The Noda Campus serves as a hub for annual international conferences, such as the 2025 International Conference on Movement Science and Technology (ICMST) and the 72nd JSAP Spring Meeting, drawing global researchers to discuss innovations in science and engineering.[84][85][86][87] TUS actively contributes to global initiatives aligned with the United Nations Sustainable Development Goals (SDGs), integrating them across faculties, including engineering, through interdisciplinary research in areas like clean energy (SDG 7) and climate action (SDG 13). The university's Data Science Center and Comprehensive Research Organization promote fusion projects that apply technology to societal challenges, supporting the "TUS VISION 150" plan for sustainable innovation by 2031.[88]Governance and Leadership
Historical principals and presidents
The Tokyo University of Science (TUS), originally established in 1881 as the Tokyo Physics School (later renamed Tokyo College of Science in 1883), was led by a series of principals during its formative years until 1949. These early leaders oversaw the institution's growth from a small academy focused on physics education into a comprehensive college emphasizing scientific rigor and national development through science.[2] Prior to the post-war reorganization, the principals included:| Name | Term | Field/Role |
|---|---|---|
| Hisashi Terao | 1883–1896 | Astronomy; first principal of Tokyo Academy of Physics |
| Kiyoo Nakamura | 1896–1930 | Meteorology; long-serving leader during expansion of curriculum |
| Kyohei Nakamura | 1930–1934 | Oversaw operations amid early 20th-century challenges |
| Masatoshi Okochi | 1934–1945 | Physics; guided the institution through wartime disruptions |
| Nakagoro Hirakawa | 1945–1949 | Mathematics; managed post-war transition to university status |
Current leadership and chairmen
The current president of Tokyo University of Science is Masatoshi Ishikawa, who assumed the role in January 2022. Ishikawa holds a doctorate in engineering from the University of Tokyo, where he earned degrees in mathematical engineering and information physics; his research expertise encompasses robotics, human interfaces, sensor fusion, and high-speed image processing, with over 13,900 citations across his publications.[91][92][93] The Chairperson of the Board of Directors is Takayuki Hamamoto, serving since 2021 and providing oversight for the university's strategic planning and institutional governance. Hamamoto, a professor of electrical engineering at TUS, guides long-term initiatives in education, research, and global positioning.[94] Tokyo University of Science operates under a governance model led by a Board of Directors, which includes the president, chairperson, and other trustees responsible for major policy decisions and fiduciary duties. Supporting the president are multiple vice-presidents handling specialized portfolios, such as academics, finance, and research promotion; for instance, Yasuo Kogo serves as vice-president and director of the Organization for Research Promotion, focusing on advancing scientific collaborations and innovation. The structure emphasizes internationalization, with dedicated roles to foster global academic exchanges and student mobility.[1][54]Notable Individuals
Notable faculty
Tokyo University of Science (TUS) has been home to several prominent faculty members whose contributions span developmental biology, space exploration, and materials science. Makoto Asashima, a developmental biologist and former vice president of TUS from 2016 to 2018, is renowned for discovering activin, a protein that plays a key role in embryonic induction and tissue regeneration. His pioneering work on self-organization in biological systems has influenced regenerative medicine and stem cell research worldwide.[95][96] In physics and engineering, Norio Taniguchi stands out as a foundational figure in nanotechnology. As a professor at TUS, Taniguchi coined the term "nanotechnology" in 1974 during a presentation on ultra-fine processing for semiconductor production, laying the groundwork for the field that now drives innovations in electronics, medicine, and materials. His research emphasized precision machining at the nanoscale, contributing to early developments in thin-film technologies and microfabrication techniques. TUS faculty in related areas continue this legacy, with ongoing nanotechnology research yielding bionanoparticles derived from maize for targeted cancer therapy, demonstrating practical applications in drug delivery systems.[97] Chiaki Mukai, a physician, astronaut, and current vice president of TUS since 2015, exemplifies the university's impact on Japan's space program. As Japan's first female astronaut, Mukai flew on two NASA Space Shuttle missions in 1994 and 1998, conducting experiments on physiological effects of microgravity and contributing to biomedical research for long-duration spaceflight. Her expertise in cardiovascular physiology has informed JAXA's human spaceflight initiatives, including astronaut health protocols. Faculty at TUS's Research Center for Space System Innovation further advance national space efforts through studies on satellite systems and space environment utilization, fostering collaborations with JAXA and industry partners.[98][85] In the physics department, faculty such as Akihiko Maeda, a professor specializing in superconductivity and quantum materials, have garnered international recognition for high-impact research. Maeda's work on high-temperature superconductors has advanced understanding of exotic quantum states, earning him placements among top global scientists in physics. The department's current leadership, including senior professors like Hiroshi Yaguchi in condensed matter physics, oversees research in areas from astrophysics to biophysics, supporting TUS's ranking as a leader in scientific output among private Japanese universities.[99][100] TUS demonstrates a commitment to diversity in STEM leadership, particularly for women, building on contributions from trailblazers like Mukai. While specific percentages for international faculty are not publicly detailed, TUS's global collaborations attract diverse researchers, with over 400 laboratories contributing to multidisciplinary projects. Faculty achievements include multiple patents in fluid sensors, nanomaterials, and data processing, underscoring TUS's role in translating research into societal impact.[101]Notable alumni
The Tokyo University of Science maintains a robust alumni network comprising over 210,000 members worldwide.[1] The Risoukai, the university's alumni association established in 1889, facilitates ongoing engagement through annual events such as homecoming gatherings, branch meetings, and professional networking opportunities to support career development and university initiatives.[102][103] Nobel laureatesNotable among the alumni are two Nobel Prize recipients. Satoshi Ōmura, who obtained his master's degree in 1963 and Doctor of Science from the university, shared the 2015 Nobel Prize in Physiology or Medicine for discoveries concerning a novel therapy against infections caused by roundworm parasites, specifically his isolation of avermectin from soil bacteria, which has saved millions of lives from river blindness and lymphatic filariasis.[104][105] Terumi Tanaka, a 1960 graduate in physics, co-represented Nihon Hidankyo in receiving the 2024 Nobel Peace Prize for its advocacy against nuclear weapons, drawing from his experience as a survivor of the 1945 Nagasaki atomic bombing to promote global disarmament efforts.[106] Government and politics
Alumni have held influential roles in Japanese government, including positions as ministers in education and other key policymaking capacities, contributing to science policy and public administration reforms. For instance, graduates have served in the House of Representatives, advancing environmental and social justice initiatives.[1] Business and industry
Graduates frequently ascend to executive leadership in technology and manufacturing firms, with the university ranking highly among Japanese institutions for producing CEOs of major enterprises according to global assessments.[107] Representative examples include leaders in electronics and innovation sectors, where approximately 20% of alumni occupy senior management roles, driving advancements in semiconductors and precision engineering.[1] Academia
Many alumni have become prominent academics, including presidents of universities and leading researchers in physics and chemistry, shaping higher education and scientific research in Japan and internationally. Their contributions include pioneering work in quantum mechanics and materials science, often returning to mentor at their alma mater.[1] Architecture
In architecture, alumni such as Kenichi Teramoto, a 1999 master's graduate in architecture, have gained international acclaim. As co-curator with Wael Al Awar for the United Arab Emirates pavilion "Wetland" at the 2021 Venice Architecture Biennale, Teramoto contributed to the project that earned the Golden Lion for Best National Participation, exploring human-nature interactions through innovative design.[108] Other graduates have contributed to designing notable Tokyo structures, blending scientific principles with urban planning.[109] Media and journalism
Alumni in media include science communicators and editors who popularize technical topics; for example, Masayoshi Soken, a composer and sound designer known for his work on the Final Fantasy video game series, bridges science and creative storytelling in digital media.[1] Other fields
Beyond these areas, alumni have excelled as artists, such as Shigeru Nakanishi, whose works integrate scientific motifs into contemporary art exhibitions, and activists like Ryu Ota, a politician and ecologist who campaigned for environmental protection and anti-war causes in the late 20th century.[1]