ShanghaiTech University
上海科技大学

China

Tackling China’s Challenges through Science and Technology

A newly established university, ShanghaiTech University offers a stimulating environment for pursuing studies and impactful research

Officially opened on September 30th 2013, ShanghaiTech University is a research university jointly established by the Shanghai Municipal Government and the Chinese Academy of Sciences (CAS).

Addressing pressing challenges

ShanghaiTech is dedicated to be a research university of academic excellence and a dynamic people centered hub where innovative research, education, and community service meet to provide a multi-disciplinary approach to learning and to solving global challenges.

Located in Zhangjiang Hi-Tech Park, ShanghaiTech is close to various industries and venture companies. It is also near several large science facilities, including the Shanghai Synchrotron Radiation Facility, the National Facility of Protein Science in Shanghai, the National Drug Screening Platform and the Shanghai Center for Microsatellites. Over 700,000 square meters in area, its campus was designed to be faculty and student oriented and to facilitate interaction and integration.

Focusing on science and technology, ShanghaiTech University comprises five schools — the School of Physical Science and Technology (SPST), the School of Information Science and Technology (SIST), the School of Life Science and Technology (SLST), the School of Entrepreneurship and Management (SEM), the School of Creative Arts (SCA) — and three research institutes — the Shanghai Institute for Advanced Immunochemical Studies (SIAIS), the iHuman Institute, and the Institute of Mathematical Sciences — and General Education Centre.

Investing in people

The university is forming a top-tier faculty of 1,000 professors, including 500 tenured or tenure-track faculty (recruited globally) and 500 distinguished professors-in-residence from CAS or other prestigious universities or institutes. The current faculty (492 by April 2019) include four Nobel laureates, eight National Academy of Sciences (USA) members, three Royal Society (UK) fellows, thirty-five CAS members and three Chinese Academy of Engineering members.

ShanghaiTech offers bachelor’s, master’s and doctoral degrees. It will eventually have 2,000 undergraduate students and 4,000 graduate students (including 3,000 PhD candidates). Currently there are 1433 undergraduate students and 1788 graduate students on campus (by Dec 2018). ShanghaiTech aims to nurture future leading scientists, inventors and entrepreneurs. At ShanghaiTech, residential colleges work closely with schools to foster students’ moral integrity, academic capabilities and innovative spirit. Students are encouraged to investigate the challenges China faces, to explore cutting-edge research areas and high-tech industries, and to implement their innovative and entrepreneurial ideas. With more than 70 clubs and societies, ShanghaiTech’s energetic student and faculty body of China is actively involved in shaping ShanghaiTech’s campus culture. ShanghaiTech students and faculty from 21 countries play an important role in ShanghaiTech’s development as a vibrant academic community. Rich and varied forms of activities, including lectures, concerts, Sports Meet, New Year's Eve party, competitions and exhibitions.

Advancing research through collaboration

By encouraging an interdisciplinary approach and the integration of university and national research facilities, the university aims to form a complete innovation value chain, which will drive industrial development through the advancement of science.

Of the first four large-scale science facilities initiated by the Zhangjiang Comprehensive National Science Center, ShanghaiTech is playing a very important role in Shanghai High repetition rate XFEL and Extreme light facility, the Free Electron Laser Facility, the Live Cell Imagining Facility and the Ultra-Intense and Ultrashort Pulse Laser Facility.

ShanghaiTech is actively engaged in the globalization of education. It has extensive collaborations with University of California, Berkeley, the University of Chicago, MIT, Yale University, Harvard University, and the University of Padova. To break down barriers between research and industry, ShanghaiTech collaborates closely with domestic and international high-tech companies in joint research and development and student training.

ShanghaiTech University Nature Index on Nature: You can find more information on Tackling challenges through science and technology: Newly established ShanghaiTech University offers a stimulating environment for pursuing studies and impactful research.

ShanghaiTech University retains sole responsibility for content © 2019 ShanghaiTech University.

1 August 2018 - 31 July 2019

Region: Global
Subject/journal group: All

The table to the right includes counts of all research outputs for ShanghaiTech University published between 1 August 2018 - 31 July 2019 which are tracked by the Nature Index.

Hover over the donut graph to view the FC 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
200 46.14

Outputs by subject (FC)

Subject AC FC
Chemistry 90 27.87
Physical Sciences 47 9.03
3 0.46
5 1.66
7 0.62
6 2.29
1 1
1 0.06
8 0.80
1 0.03
3 0.21
3 0.28
6 1.33
2 0.12
1 0.17
Electronic structures and unusually robust bandgap in an ultrahigh-mobility layered oxide semiconductor, Bi2O2Se
2018-09-01
0.17
Life Sciences 95 13.90
Earth & Environmental Sciences 1 0.23

Highlight of the month

Structure of cannabinoid receptor hashed out

© CasarsaGuru/Getty

© CasarsaGuru/Getty

The first high-resolution structure of the cannabinoid receptor 2 (CB2) shows how different drug molecules work on different parts of the endocannabinoid pathway.

A ShanghaiTech University–led team determined the crystal structure of CB2 in complex with a molecule designed to block the receptor.

The researchers showed that CB1, a receptor widely distributed in the central nervous system, and CB2, a receptor predominately expressed in the immune system, have distinct interaction sites for antagonistic drugs.

However, the structure of the binding pocket for antagonists of CB2 resembled that of the binding pocket for activating agents of CB1, which helps explain why substances stimulating one receptor can weaken or inhibit the other, and vice versa.

The findings should help scientists better understand the effects of cannabis, the components of which act on CB1 and CB2. The new structure should also enable more rational and selective drug design for desired therapeutic effects.

Supported content

  1. Cell 176, 459–467.e13 (2019). doi: 10.1016/j.cell.2018.12.011

View the article on the Nature Index

See more research highlights from ShanghaiTech University

More research highlights from ShanghaiTech University

1 August 2018 - 31 July 2019

International vs. domestic collaboration by FC

  • 71.22% Domestic
  • 28.78% International

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

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

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