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The energy consumption of a new artificial visual system developed through joint research led by CityU can be reduced by over 90% per synaptic event when compared to synapses in the human brain.
Three projects at CityU have been granted $8.3 million in funding by the Health and Medical Research Fund under the Food and Health Bureau, spotlighting our valuable contributions to fighting Covid-19.
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.
A joint research team led by CityU has successfully achieved elastic straining of diamond at an unprecedented level, a breakthrough that heralds a new diamond age in the utilisation of the gemstone in microelectronics, photonics, and quantum information technologies.
Scientists at CityU have developed a novel computer tool to extract, track and visualize cells, and analyze the formation, structure and functions of Caenorhabditis elegans during cell division.
The Greater Bay Area Joint Laboratory of Big Data Imaging and Communications has been established by the Department of Electrical Engineering and the State Key Laboratory of Terahertz and Millimeter Waves at CityU.
A research team led by a scientist at CityU has discovered that kangaroos can intentionally communicate with humans, challenging the notion that this behaviour is usually restricted to domesticated animals like dogs, horses or goats.
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.
A “magic” spray for turning objects into agile millirobots to deliver drugs precisely inside a living body has been developed in joint research led by a scientist from CityU.
A research team led CityU has discovered a new strategy for fabricating multicomponent superlattice alloys with disordered interfacial nanolayers that have both high strength and good ductility at various temperatures.