ShanghaiTech University is building new infrastructure and creating incentives for research and teaching innovations.
As China looks to become carbon-neutral by 2060, new opportunities arise in targeting the largest population in the world for cross-disciplinary research and teaching, according to Yin Jie, Vice President and Provost of ShanghaiTech University. Jointly founded by the Chinese Academy of Sciences and Shanghai Municipal People's Government in 2013, ShanghaiTech has an embedded culture of research innovation to address global priorities in environmental and public health.
“Shanghai is home to the best ranked universities in China defined by scope and scale. At ShanghaiTech, success is about being the best at where our strengths are. These are built upon our dedication to an open environment to promote independent research of real impact, and not just measured by the number and comprehensiveness of our programmes,” says Yin.
Photon science, for example, is one of the subjects with significant potential. Yin explains that the tradition of optics research in China runs deep, but the development of its branch in photonics is relatively recent. “Developing photonic infrastructure could take a long time, and may not yield a sharp increase in number of papers, but such studies could shed light on green energy, serving national goals and the needs of the international scientific community,” he says.
A growing cluster for photon science
At a global photon science research center at Zhangjiang Comprehensive National Science Center in Shanghai, new facilities have been designed to study the internal structure and dynamic changes of live cells, and catalytic reactions at the femtosecond level, a quadrillionth of a second, to glean clues about the underlying mechanisms. Supported by national funding and state laboratories, ShanghaiTech has been a main player at each step, from creating the blueprint for large-scale facilities, to coordinating their assembly.
A materials scientist by training, Yin explains that Shanghai-XFEL Beamline Project (SBP) of the Shanghai Soft X-ray Free Electron Laser Facility (SXEFL) could allow researchers to view catalysts in continuous motion at the molecular level.
“Many catalysts work at high-temperature, high-pressure conditions that require substantial energy expenditure. With SXEFL, we re-examined catalyst design to reduce by-products and reaction requirements, thereby minimizing environmental pollution,” says Yin. “One example is perovskite, a popular catalyst that is attracting much attention for its low production cost and high conversion efficiency from solar energy to electrical energy.”
SXEFL, working at wavelengths as short as 2.0 nm, also holds great promise for viewing biological specimens and organic molecules in their natural aqueous environment, such as in live cell imaging. In June 2021, ShanghaiTech announced SXEFL’s full coverage of the “water window”, an electromagnetic spectrum where oxygen and water are transparent to soft X-rays, which are absorbed however by other building blocks of life such as carbon and nitrogen.
This series of infrastructure developments, with plans extending to 2025 and beyond, include Shanghai Superintense Ultrafast Laser Facility (SULF), Shanghai HIgh repetitioN rate XFEL and Extreme light facility (SHINE), and Shanghai Synchrotron Radiation Facility (SSRF). SSRF, for example, hosts the Nano Angle-Resolved Photoemission Spectroscopy (NanoARPES), the first of its kind in China, designed and developed by ShanghaiTech. Operationally ready since October 2021, the station will enable X-ray photons to focus on an extremely small solid sample via synchrotron radiation, thus helping to detect electronic structure and advance studies into low dimensional and quantum materials.
“These facilities welcome not only ShanghaiTech staff and students, but also researchers from other parts of China and the world,” adds Yin.
Innovations from inside out
Along with the new teaching and research opportunities designed around these new infrastructures, Yin points to national support for land acquisition, campus expansion, as well as other financial investments. There is academia-business synergy in its Zhangjiang neighbourhood that has encouraged a growing number of start-ups and multinationals specializing in emerging fields and crossroads of science.
The faculty structure at ShanghaiTech reflects this need for increasing collaboration, such as in materials science, information engineering, and public health, defying traditional categorization to flexibly tackle translational complexities.
“While the impact of our materials science innovations sees potential to reach other branches of basic science including physics and chemistry, similarly, an increasing number of our projects in immunology and biomedical engineering demonstrate the potential for clinical studies,” says Yin. “These could benefit from our new infrastructure and network of national laboratories across Shanghai.”
Furthermore, there is also a push for young researchers and students to take center stage, which for Yin, could mean taking a step back to reform the traditional top-down approach towards academic planning and resource allocation.
“Younger researchers may lack access to funding and other support compared to their senior peers, and China is not alone in this problem,” he says. “But we have devoted greater attention to an inclusive environment and a support system to encourage long-term personal growth, together with a shift of emphasis from knowledge transfer to skill building.”
Securing the funding and having the infrastructure in place are essential, but he also sees the value of effective institutional structure and incentives. Yin wants to ensure an open environment with enough room for young academics to explore their own research interests, while taking responsibility for their own research and career path. Students are encouraged to take initiative in starting their own projects and working together on international competitions.
After all, the greatest strength of ShanghaiTech, he believes, stems not only from its world-class faculty, but its talent. “We’re here to support them all the way by offering them world-class resources and all the guidance they need”.