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According to metrics compiled by Stanford University, over 170 CityU faculty members are listed among the top 2% of the world's most highly cited scientists, reflecting the high academic standard of our faculty and our excellent research performance.
Researchers from CityU won the highest number of awards among all universities in Hong Kong at IGED 2021, including a Gold Medal with Congratulations of the Jury, five Gold Medals, three Silver Medals and three Bronze Medals, demonstrating the excellence of the research carried out at CityU.
New methods for reducing air pollution and generating solar fuels developed by scientists at CityU offer practical solutions to the energy shortage, environmental issues, and related public health risks.
Funding worth HK$19 million has been secured for four highly competitive collaborative research projects into Covid-19 led by scholars at CityU.
A bioaerosols research project aimed at developing innovative and effective methods for detecting and disinfecting bacteria and viruses including SARS-CoV-2 in indoor environments led by CityU has secured HK$ 6.15 million from the Research Impact Fund.
A three-fold improvement in the efficiency of solar-to-hydrogen energy conversion can facilitate solar energy harvesting technology, according to the research team led by Dr Sam Hsu Hsien-yi, Assistant Professor in the School of Energy and Environment at CityU.
Outstanding faculty members at CityU were recognised by RGC at an Awards Presentation Ceremony on 24 November for their distinguished research achievements and significant contributions to higher education.
Environmental scientists at CityU have proposed a new pathway for the formation of sulfate, providing new insights for improving haze prediction.
The contributions of an environmental scientist of CityU to the field of photoelectrocatalysis have made him the only winner of the 2019 APEC Science Prize for Innovation, Research and Education.
SEE received funding from The Bill & Melinda Gates Foundation to investigate the growth of multiple strains of human gut microbes in a single reactor.