研究故事

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Chengdu collaboration boosts creative media and digital technology
2018年5月11日
Chengdu collaboration boosts creative media and digital technology
ARTS + iNNOVATION (A+i) at the City University of Hong Kong Chengdu Research Institute (CityUCRI), which officially opened on 11 May, will provide public space for applied research, training and incubation for creative media and digital society-related industries. It will also enhance collaboration on research and professional training between Chengdu and Hong Kong. <br />
最硬鑽石也有彈性:納米尺度下的「硬漢柔情」
2018年4月23日
最硬鑽石也有彈性:納米尺度下的「硬漢柔情」
在最新一期的世界頂級學術期刊《科學》雜志上,其刊登的《Ultralarge elastic deformation of nanoscale diamond》一文宣布了這項金剛石在納米尺度下力學行為的重大發現。該研究項目由香港城市大學機械與生物醫學工程系副教授、香港城市大學深圳研究院先進結構材料研究中心(CASM)研究員陸洋課題組領銜展開。這支由中美科學家領導的國際科研團隊首次報道,在納米尺度下,即金剛石的大小降至約100納米(約人類頭發六百分之一粗幼)時,就可承受前所未有的巨大形變且能恢復原狀,而其中單晶納米金剛石的彈性拉伸形變最大可以達到約百分之九,接近金剛石在理論上所能達到的彈性變形極限。在最新一期的世界頂級學術期刊《科學》雜志上,其刊登的《Ultralarge elastic deformation of nanoscale diamond》一文宣布了這項金剛石在納米尺度下力學行為的重大發現。該研究項目由香港城市大學機械與生物醫學工程系副教授、香港城市大學深圳研究院先進結構材料研究中心(CASM)研究員陸洋課題組領銜展開。這支由中美科學家領導的國際科研團隊首次報道,在納米尺度下,即金剛石的大小降至約100納米(約人類頭發六百分之一粗幼)時,就可承受前所未有的巨大形變且能恢復原狀,而其中單晶納米金剛石的彈性拉伸形變最大可以達到約百分之九,接近金剛石在理論上所能達到的彈性變形極限。
Novel bioprocess for recycling textile waste wins Gold Medal in the International Exhibition of Inventions of Geneva
2018年4月19日
Novel bioprocess for recycling textile waste wins Gold Medal in the International Exhibition of Inventions of Geneva
Innovative green technology capable of recycling mixed textile waste into value-added products, such as synthetic fibre and bioplastics, is developed by a researcher team from the School of Energy and Environment (SEE) at City University of Hong Kong. The team recently won a Gold Medal at the 46th International Exhibition of Inventions of Geneva.
Effective “bombs” identified for killing cancer with “Trojan Horse” strategy
2017年12月21日
Effective “bombs” identified for killing cancer with “Trojan Horse” strategy
The development of a more effective photothermal therapy for treating cancer may now be one step closer. 
A reliability look at energy development
2017年11月14日
A reliability look at energy development
Energy must balance with environmental protection, reliability and sustainability, and social and economic welfare. That’s the key message in a commentary article penned by Professor Way Kuo, President of City University of Hong Kong, for the 2018 January issue of the journal Joule. <br />
Smart thermostat significantly saves energy and costs
2017年10月17日
Smart thermostat significantly saves energy and costs
A smart thermostat for central air-conditioning systems that can save more than 10% on power and improve indoor comfort levels has been developed and launched onto the market by a team at City University of Hong Kong (CityU). 
Ground-breaking typhoon prediction system wins local, European funding
2017年6月5日
Ground-breaking typhoon prediction system wins local, European funding
A pioneering system for predicting with greater accuracy the landfall of seasonal typhoons to be developed by Professor Johnny Chan Chung-leung, Chair Professor of Atmospheric Science at the School of Energy and Environment, City University of Hong Kong (CityU), has received a grant under the European Commission (EC) and Research Grants Council (RGC) Collaboration Scheme. 
World’s strongest magnesium alloy developed Potential application as biodegradable medical implants
2017年4月6日
World’s strongest magnesium alloy developed Potential application as biodegradable medical implants
The new advanced material is 10 times stronger than conventional crystalline magnesium alloy and has super-deformation capacity two times higher than that of magnesium-based metallic glass. The magnesium-alloy system consists of nanocrystalline cores embeddedin amorphous glassy shells. The strength of the resulting dual-phase material is a near-ideal 3.3 gigapascals (Gpa) – making this the strongest magnesium – alloy thin film yet developed.