The Institute of Functional Nano & Soft Materials (FUNSOM), founded in 2008, is characterized by its global vision and interdisciplinary research directions. It is located at Soochow University in Suzhou, a historic city with a dynamic culture. It is led by the founding director Prof. Shuit-Tong Lee, a member of the Chinese Academy of Sciences (CAS). The Institute includes a provincial key lab: Jiangsu Key Laboratory for Carbon-based Functional Materials and Devices. Two years after the foundation of FUNSOM, the corresponding educational college, College of Nano Science and Technology (CNST) was established in 2010. Furthermore, FUNSOM is part of the Collaborative Innovation Center of Suzhou Nano Science and Technology (NANO-CIC), which is under the National 2011 Plan Program in China.
Shuit-Tong Lee is the founding director of FUNSOM and NANO-CIC, and the founding dean of CNST. He is a member of Chinese Academy of Sciences (CAS), and a fellow of the Academy of Sciences for the Developing World (TWAS). Lee is a distinguished material scientist and has been designated by Thomson Reuters as a Highly Cited Researcher in 2016 and one of the World’s Influential Scientific Minds in 2015. With a global vision, Lee has established the mission of FUNSOM and CNST: internationalization and a interdisciplinary spirit. Therefore, FUNSOM has been regarded as an ‘International Island in China’.
FUNSOM is proud of its outstanding faculty, all of whom have overseas research experience. Faculty members at FUNSOM have received multiple talent awards, including National ‘1000 Talents Scheme’, Yangtze River Scholar, National Science Fund for Distinguished Young Scholars, and National ‘1000 Youth Talents Scheme’. FUNSOM has also received multiple innovation team awards, such as Returned Overseas Chinese Contribution Award (Innovation Team), and Jiangsu Provincial Science & Technology Innovation Team.
FUNSOM is focused on interdisciplinary research and the development of nanomaterials and nanotechnology, spanning multiple fields including optoelectronics, new energy, environment and biomedicine. There are currently five major research directions: Functional Nano Materials & Devices, Organic Optoelectronic Materials & Devices, Structured Functional Surfaces & Interfaces, Nano-Biotechnology & Nanomedicine, and Materials Simulation & Rational Design. There is both fundamental and applied research at FUNSOM, supported by an R&D chain of ‘molecular design—material synthesis-device fabrication—technology application’. Therefore, FUNSOM is dedicated to pushing forward commercialization of pioneering nanotechnologies, and generating new opportunities for the economic growth of Suzhou City and Jiangsu Province.
The research at FUNSOM is exceptional in terms of publications, paper citations and patents. Researchers at FUNSOM have published over 900 Science Citation Index papers, most of which were high-impact journals, including Science and Nature Communications. Paper citations exceeded 1700 in 2012. To date, FUNSOM has been awarded 42 invention patents and one utility patent. Ever since the foundation of FUNSOM, Soochow University has been ranked as the top ten most improved universities in the world in terms of weighted fractional count of Nature Index (it increased dramatically from 56.04 in 2012 to 108.47 in 2015).
FUNSOM has been awarded research funds of over US$51 million up to 2016, including National High-tech R&D Program of China, National Science & Technology Major Project, National Basic Research Program of China-Young Scientists Project. FUNSOM has advanced research facilities, including high resolution transmission electron microscope, scanning electron microscope, high-performance computing cluster systems, X-ray photoelectron spectroscope, OLED vacuum thermal evaporators and clean rooms.
FUNSOM is also committed to promote international cooperation. SUN-WIN Joint Research Institute for Nanotechnology, and Soochow University-Western University Center for Synchrotron Radiation Research are two joint programs between FUNSOM and universities in North America. Moreover, FUNSOM has organized conferences and workshops in order to enhance the communication with worldwide researchers, such as ‘Forum on Nano Optoelectronic Materials & Devices and its Industrialization’, and ‘Sino-German Workshop on Functionalization of Wide-bandgap Semiconductor Materials for Chemical and Biochemical Sensing’.
FUNSOM retains sole responsibility for content © 2017 FUNSOM.
1 October 2016 - 30 September 2017
Principal institution: Soochow University
Subject/journal group: All
The table to the right includes counts of all research outputs for Institute of Functional Nano and Soft Materials (FUNSOM), Soochow University published between 1 October 2016 - 30 September 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.
Outputs by subject (WFC)
Highlight of the month
Sorting out cancer cells
© Martin Konopka /EyeEm/Getty
Identifying the difference between normal and malignant cells is essential for the diagnosis and treatment of cancer using targeted therapies. Now, a China-US team has engineered sugars in a new way to tag cancerous cells.
Targeted therapies use markers on the surfaces of cancer cells for which antibodies can be designed to target and deliver treatments. But using current methods, this doesn’t work for all cancers.
The team, including researchers from the Institute of Functional Nano & Soft Materials (FUNSOM), Soochow University, has developed a new method to mark cancer cells for treatment using glycoengineered small-molecule sugars that can be targeted with a molecule known as DBCO.
The system was successfully tested in mice on tumours caused by several forms of cancer, including triple-negative breast cancer, for which present target therapies don't work well and for which survival rates are very low. The researchers say it’s the first time tumours have been successfully labelled and targeted using small-molecule sugars.
- Nature Chemical Biology 13, 415–424 (2017). doi: 10.1038/nchembio.2297
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