Ten PolyU projects funded by the NSFC/RGC for Collaborative and Joint Research Schemes
30 Nov 2022
Ten research projects led by scholars at The Hong Kong Polytechnic University (PolyU) have been funded by the National Natural Science Foundation of China and the Research Grants Council (NSFC/RGC) under the Joint Research Scheme (JRS) and the new Collaborative Research Scheme (CRS) 2022/23 Exercise.
Under the CRS, two PolyU research projects have been awarded a total amount of HK$7.164 million. While under the JRS, eight research projects led by PolyU scholars have received total funding of HK$9.396 million. Both CRS and JRS support research projects for a period of four years.
The research projects cover topics in information technology, management science, marine and environmental science, new material science, applied mathematics and biomedical engineering.
PolyU scholars are committed to exploring innovative discoveries for a more sustainable future. Some of the projects address imminent social and human needs with, for example, research on a hospital bed sharing mechanism and optimisation, investigation of rainstorm and storm surge occurrence pattern together with flood risk assessment in the Greater Bay Area cities, and time-sequence regenerative repair of atherosclerotic blood vessels with Janus cardiovascular stents.
Prof. Christina WONG, Director of Research and Innovation at PolyU, said, “PolyU is dedicated to conducting impactful research through multi-disciplinary collaborations to foster sustainability for a better world. We are thankful for the support of the NSFC/RGC for the PolyU projects funded under the Collaborative Research Scheme and Joint Research Scheme, which reinforces research strengths across the Mainland and Hong Kong to lead innovative discoveries.”
The NSFC/RGC supports research projects jointly proposed by Mainland and Hong Kong researchers for their scientific merit. The CRS, which was newly introduced in 2022/23, aims to support larger-scale collaborative research across disciplines and/or across universities in the Mainland and Hong Kong with a view to enhancing research output and impact. The grant for each Hong Kong applicant is limited to HK$3.6 million. The JRS promotes collaboration between researchers in the Mainland and Hong Kong for their complementary strengths. The amount of funding for Hong Kong applicants is limited to HK$1.25 million.
List of PolyU Projects funded under NSFC/RGC Collaborative Research Scheme 2022/23
Research Field |
Project Title |
Hong Kong Project Coordinator |
Mainland Principal Investigator/ Institution |
Information Technology
|
Monolithically Integrated Electronics with Two-Dimensional Semiconductors – from Controllable Growth to Device Integration |
Prof. CHAI Yang |
Prof. ZHANG Wenjing |
New Materials Science |
Long-cycle and High-energy-density Flexible Li Batteries Using Hollow Multishelled Structure and Hierarchical Composite Electrode |
Prof. ZHENG Zijian |
Prof. YANG Mei |
List of PolyU Projects funded under NSFC/RGC Joint Research Scheme 2022/23
Research Field |
Project Title |
Hong Kong Principal Investigator |
Mainland Principal Investigator/ Institution |
Information Technology |
Enhancing Digital Asset Security Basedon the Blockchain Technology |
Prof. XIAO Bin |
Prof. DENG Xiaotie |
Management Science |
Mechanism and Optimization for Hospital Bed Sharing |
Prof. YE Hengqing Department of Logistics and Maritime Studies |
Prof. WAN Guohua |
Marine and Environmental Science |
Investigation of Rainstorm - Storm Surge Joint Occurrence Pattern and Induced Flooding Risk Assessment in Coastal Cities within the Greater Bay Area (GBA) |
Dr DUAN Huanfeng |
Prof. ZHENG Feifei |
An Integrated System of Unmanned Aerial Vehicles and Unmanned Surface Vehicles for Smart Maritime Support in Guangdong-Hong Kong-Macao Greater Bay Area |
Dr LIU Wei |
Prof. MA Yong |
|
New Materials Science |
Tin-Based Metal Halide Perovskites for X-Ray Detectors |
Prof. YAN Feng |
Prof. YANG Shihe |
Others |
Mathematical Modeling and Analysis on the Predator-mediated Competitions and their Biological Consequences |
Prof. WANG Zhian |
Prof. LOU Yuan |
Stochastic Multiobjective Optimization and Applications |
Prof. CHEN Xiaojun |
Prof. YANG Xinmin |
|
Time-sequence Regenerative Repair of Atherosclerotic Blood Vessels with Janus Cardiovascular Stents |
Dr ZHAO Xin |
Prof. YANG Zhilu |
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