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Nearly two hundred and ten scholars from CityUHK were named among the “World’s Top 2% Most-cited Scientists”. Compared to the overall number of teaching and research staff at the University, this is the highest proportion of top scientists in Hong Kong, demonstrating the University’s exceptional research capabilities. The research achievements of these scholars are widely cited by their peers and internationally recognised.
Thirty-two outstanding scientists from CityUHK have been awarded funding from the National Nature Science Foundation of China for 2024.
CityUHK research team collaborated with mainland cross-institutional and cross-disciplinary teams to develop a single-cell screening/selection system (BLASTO-chip), which can achieve automatic high-throughput, label-free selection of sperm, bringing hope to patients with asthenozoospermia, an infertility condition in which a man produces sperm with low motility.
Six outstanding scholars from CityUHK have been awarded funding from the RGC under the 2024/25 Senior Research Fellow Scheme and Research Fellow Scheme, receiving a total of over HK$42 million.
Researchers at CityUHK debuted four projects at the Silicon Valley International Invention Festival 2024 and achieved outstanding results, winning five awards, including one Semi-Grand Prix and four Gold Medals.
A team of researchers at CityUHK has developed a groundbreaking living passivator that substantially enhances the stability and efficiency of perovskite solar cells.
A CityUHK scientist is participating in a research project on "High-Frequency, High-Power and High-Efficiency Wireless Power Transfer Technologies", which was awarded HK$28.36 million in funding from the RGC's Theme-based Research Scheme.
A team of researchers at CityUHK ingeniously integrated a spring-loaded telescopic leg beneath a quadcopter, creating an innovative hopping robot, named “Hopcopter”, which defies conventional boundaries.
CityUHK research team addressed a challenge for scientists for over a decade with creative material science solutions. The team demonstrated an effective strategy to enhance the long-term stability of perovskite-organic tandem solar cells, which can be mass-produced at a speed comparable to newspaper printing, with a daily output of up to 1,000 solar panels.
Researchers from CityUHK and Peking University have successfully achieved the direct measurement and simulation of the nanoscale superlubricity behaviour of a 2D water/ice on graphene sheet.