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PolyU participates in Asia Summit on Global Health, showcasing innovations in healthcare technology

  The global demand for healthcare continues to rise due to an ageing population and the increasing prevalence of chronic diseases. Scholars, startups, and research teams from The Hong Kong Polytechnic University (PolyU) participated in the Asia Summit on Global Health (ASGH) at the Hong Kong Convention and Exhibition Centre on 26 and 27 May. They shared insights with industry experts from around the world and showcasing the University’s research achievements in healthcare technology innovations. Prof. Christopher CHAO, Vice President (Research and Innovation) of PolyU, stated, “PolyU has consistently harnessed expertise and research capabilities in fields such as artificial intelligence (AI), healthcare, public health, and engineering. We leverage the unique advantages of medical and engineering integration and empowering medicine with AI to develop innovative solutions that meet societal needs. As a pioneer in innovation and entrepreneurship, PolyU is committed to nurturing startups and promoting the commercialisation of research outcomes to contribute to the well-being of society and humanity globally.” Prof. ZHANG Weixiong, Associate Director of PolyU Academy for Interdisciplinary Research, Chair Professor of Systems Biology and Artificial Intelligence of the Department of Health Technology and Informatics and Global STEM Scholar, participated in a thematic session on the theme of “Data-driven Healthcare Transforming Patient Journey”. With industry peers, he explored innovative applications of and prospects for using big data and AI technologies in optimising patient healthcare processes. Prof. Zhang highlighted the importance of healthcare data for researchers and the need for long-term collaboration among all stakeholders to collectively advance healthcare research and innovation. Additionally, seven PolyU startups, three research teams, and The InnoHK Centre for Eye and Vision Research showcased their research and technological achievements in healthcare technology at the “InnoHealth Showcase” and ASGH exhibition respectively. Their innovations cover areas such as pharmaceutical and therapeutics, AI and digital health, medical device and diagnostics, and community health and wellness, highlighting PolyU’s strengths in these fields. PolyU is dedicated to advancing innovation and entrepreneurship development that benefits to the world. Through PolyUVentures, its signature startup ecosystem, the University bolsters PolyU startups at every stage of their entrepreneurial journeys – from education and ideation to incubation, acceleration and fundraising. Over the years, PolyU has nurtured about 600 startups, including two listed companies, three unicorns and 26 ponies. Online coverage: Wen Wei Po - https://polyu.me/43iuswc  

Two PAIR members receive PolyU Young Innovative Researcher Award 2025

Congratulations to the following two rising stars at PAIR for winning the PolyU Young Innovative Researcher Award (YIRA) 2025! YIRA aims to honour young PolyU researchers under the age of 35 who have demonstrated originality, contributed to technological advancement, and propelled transformational innovation into solutions to addressing global challenges through their research. Each awardee will receive a research funding support of HK$500,000 and a personal cash prize of HK$20,000 to encourage their continued pursuit of innovative and impactful research. Awardee Post Title and Department Affiliated PAIR Research Unit Research Focus Prof. LIN Wanyu Assistant Professor of Department of Data Science & Artificial Intelligence and Department of Computing Member of Research Institute for Artificial Intelligence of Things An Interpretable Deep Learning-Based Computational Framework for Crystal Materials Design Dr TAO Yong Research Assistant Professor of Department of Civil and Environmental Engineering Member of Research Centre for Resources Engineering towards Carbon Neutrality   Advancing CO2 Mineralization and Waste Concrete Valorization for a Sustainable Future  

RCTFF and RI-IWEAR co-host The Fiber Society 2025 Spring Conference

The Fiber Society 2025 Spring Conference was successfully held on the PolyU campus, 21–23 May 2025. The conference was jointly hosted by various PolyU units including the School of Fashion and Textiles, Research Centre of Textiles for Future Fashion (RCTFF), and Research Institute for Intelligent Wearable Systems (RI-IWEAR), Joint Research Centre for Fiber Innovations and Renewable Materials, and PolyU–Xingguo Technology and Innovation Research Institute. Prof. SHOU Dahua, Associate Director of RCTFF and member of RI-IWEAR, was the Conference Chair of the Organising Committee. Themed “Future Fibers for Wellbeing, Intelligence, and Sustainability”, the event brought together more than 300 scholars, experts and industry representatives from approximately 20 countries and regions, and featured total of 200 high-quality academic presentations focusing on the latest advancements in fiber science. Founded in 1941, The Fiber Society is dedicated to the advancement of scientific knowledge pertaining to fibers, fiber-based products, and fibrous materials. Its members include chemists, physicists and engineers specialising in fiber science engineering and technology.

Prof. ZHANG Dan develops the world’s first 3-DoF ankle rehabilitation robot product

Prof. ZHANG Dan, Chair Professor of Intelligent Robotics and Automation, and his research team have developed the world’s first Ankle Joint Rehabilitation Robot product with three degrees of freedom (3-DoF), enabling home-based rehabilitation training for patients with restricted joint mobility, as well as postoperative ankle rehabilitation for patients with cerebral palsy and stroke. Integrated with embodied intelligence technology, the system can automatically adjust to the target position for training according to the user’s foot size and ankle joint position, thereby providing personalised rehabilitation training. Patients can also undergo rehabilitation training using the robot on bed without standing. The system fully simulates the natural movements that occur in multiple directions and angles at the ankle joint including flexion, rolling and rotation, surpassing similar rehabilitation equipment on the market that only supports one or two degrees of freedom. The robot combines force feedback function，EMG feedback function and neuromuscular electrical stimulation technology to provide two training modes, patient-initiated active training, machine-driven passive training, and resistance training to meet the training needs of users at different stages of rehabilitation. The intelligent robot is designed to be portable, and its cost is much lower than that of similar equipment on the market. Prof. Zhang is now collaborating with Huashan Hospital, an affiliate hospital of Fudan University, to carry out clinical trial in which hospital patients are provided with robot-assisted rehabilitation for free. Prof. Zhang is currently Director of PolyU—Nanjing Technology and Innovation Research Institute and Director of Consortium for Intelligent Robotics Research. He also serves as a Member of Research Institute for Advanced Manufacturing (RIAM), Research Institute for Artificial Intelligence of Things (RIAIoT), Research Institute for Intelligent Wearable Systems (RI-IWEAR), Otto Poon Charitable Foundation Research Institute for Smart Energy (RISE) and Research Centre of Textiles for Future Fashion (RCTFF). Online coverage: Headline Daily- https://www.stheadline.com/ad-innovation/3454044/%E9%86%AB%E5%B7%A5%E7%B5%90%E5%90%88%E8%B8%9D%E9%97%9C%E7%AF%80%E5%BE%A9%E5%BA%B7%E6%A9%9F%E6%A2%B0%E4%BA%BA-%E5%8A%A9%E4%B8%AD%E9%A2%A8%E6%82%A3%E8%80%85%E5%B1%85%E5%AE%B6%E5%BE%A9%E5%BA%B7

Net-zero future - Nanotech expert Prof. G.Q. Max LU explores revolutionary advances in green hydrogen

Prof. G.Q. Max LU, President and Vice-Chancellor of the University of Surrey in the United Kingdom, delivered the 39th PAIR Distinguished Lecture titled “Functional Nanomaterials for Green Hydrogen Production and Storage” on 20 May 2025 on the PolyU campus. The lecture drew over 60 attendees in person and captivated an online audience of more than 15,900 from different countries and regions who watched the live broadcast on social media platforms. The lecture commenced with a warm welcome by Prof. CHEN Qingyan, Director of PAIR, followed by an introduction of the speaker by Prof. Christopher CHAO, Vice President (Research and Innovation) of PolyU. Prof. Lu began his presentation with a brief outline of the role of functional nanomaterials in addressing global challenges and advancing green hydrogen technologies. He highlighted the critical importance of electrodes, membranes, catalysts and photocatalysts in enhancing the efficiency and scalability of electrolysis and photocatalysis systems, as well as the significance of solid-state storage materials in overcoming challenges related to hydrogen storage and distribution, noting that some low-pressure solutions are already in use. Still, Prof. Lu emphasised that further technological innovations are needed to reduce costs and enhance performance. He explained that green hydrogen is a valuable energy carrier; it can not only contribute to decarbonisation in the power sector, but also act as zero-emission fuel for sea, land and air freight, which is crucial for the achievement of a net-zero future by 2050. In conclusion, Prof. Lu called on the academic community to accelerate the commercialisation of new materials for the construction of cost-effective hydrogen infrastructure, and urged researchers to bridge the gap between technology R&D and practical applications. Following the presentation was a lively question-and-answer session moderated by Prof. Chen. The audience engaged in a productive discussion with Prof. Lu, covering a wide spectrum of areas such as hydrogen energy infrastructure planning, technical safety considerations, commercialisation, and cost-effectiveness of nanotechnology for hydrogen production and storage. Please click here for an online review.

DoMHRC honoured among Top 50 Asia Women Tech Leaders 2025 for advancing mental health and brain research

Prof. QIU Anqi, Director of the Mental Health Research Centre (MHRC), Professor in the Department of Health Technology and Informatics and Global STEM Scholar, has been recognised as one of the “Top 50 Asia Women Tech Leaders 2025”. This recognition stands as a testament to Prof. Qiu’s outstanding contributions to the fields of neuroimaging and biomedical engineering, particularly in advancing research on mental health and brain development. Prof. Qiu has spearheaded ground-breaking projects utilising advanced neuroimaging and computational techniques, significantly advancing research on early brain development. Her innovative approach has uncovered critical insights into how maternal mood influences fetal brain health, leading to transformative changes in prenatal mental health screening. Additionally, she pioneered a non-invasive imaging method that enhances MRI safety for paediatric patients, setting new standards in the field. Moreover, Prof. Qiu has introduced novel research that advances our understanding of the neural mechanisms underlying the relationship between obesity and its implications on cognitive health in adults. The research underscores the clinical importance of a multifaceted approach to the long-term monitoring and management of obesity. It reveals a distinct and progressive pattern of brain deterioration linked to obesity, suggesting that sustained obesity may accelerate brain ageing. Beyond Prof. Qiu’s professional achievements, this award also recognises her remarkable leadership. As a dedicated mentor, she continues to inspire and empower women in STEM. Her influence and commitment to fostering the next generation of female technology leaders are commendable. The Asia Women Tech Leaders Awards was recently held in Singapore. Its “Top 50 Asia Women Tech Leaders” aims to honour women who drive technological innovation, lead research, and manage complex tech projects with expertise and operational excellence. For more about Prof. Qiu’s impactful research: PolyU research reveals sustained obesity may accelerate brain ageing PolyU scholar confirms maternal positive mental health correlated to children’s brain development For more about MHRC: https://www.polyu.edu.hk/mhrc/

Joint study reveals nearly half of online dietary advice is misleading

A survey conducted by The Hong Kong Polytechnic University (PolyU), in collaboration with the Hong Kong Nutrition Association (HKNA) and the Hong Kong Metropolitan University, has revealed that more than 40% of online nutrition-related advice lacks scientific credibility. Additionally, the research found that close to 40% of respondents had followed at least one fad diet. Prof. Kenneth LO Ka-hei, Member of the Research Institute for Future Food (RiFood) and the Research Institute for Smart Ageing (RISA), Assistant Professor in the Department of Food Science and Nutrition of PolyU, and Internal Affairs Officer of HKNA, emphasized that the results underscore the increasing focus among Hong Kong residents on healthier eating habits and their willingness to explore various dietary strategies to enhance their well-being. Online coverage: TVB - https://polyu.me/4j5XhR5 Now TV - https://polyu.me/43CRRZe i-Cable - https://polyu.me/3ScQ5YC CRHK - https://polyu.me/43mCbIk The Standard - https://polyu.me/3FgJqcO Oriental Daily News - https://polyu.me/4k2cc09 Ming Pao Daily News - https://polyu.me/4kbgCBN Sing Tao Daily - https://polyu.me/4j6mFq5 am730 - https://polyu.me/3He4O2Y Headline Daily - https://polyu.me/4knqbx9 Ta Kung Pao - https://polyu.me/4kKKULN Wen Wei Po - https://polyu.me/3F0LJRn Dot Dot News - https://polyu.me/3H1Xnfh Lion Rock Daily - https://polyu.me/3ZesMSb Orange News - https://polyu.me/3FcLsLe Kin Liu - https://polyu.me/4mtOjjJ

PolyU develops rehabilitation robots for post-stroke mobility recovery

A team led by Prof. HU Xiaoling, Member of Research Institute for Smart Ageing (RISA) and Research Institute for Sports Science and Technology (RISports), Associate Professor in the Department of Biomedical Engineering, has developed the Mobile Ankle-foot Exoneuromusculoskeleton, aiming to provide timely rehabilitation and alleviate pressure on public healthcare system. Combining the benefits of exoskeleton, soft pneumatic muscle, neuromuscular electrical stimulation and vibrotactile feedback, this pioneering multimodal robot helps improving stroke patients’ gait stability and balance during walking, offering an innovative solution to rehabilitation treatment. Online coverage: Headline Daily - https://polyu.me/4mgrsI0

PolyU research reveals sharp depletion in soil moisture, driving land water to flow into the oceans and contributing to a rise in sea levels

The increasing frequency of once-in-a-decade agricultural and ecological drought has underscored the urgency of studying hydrological changes. A research team from the Department of Land Surveying and Geo-informatics of The Hong Kong Polytechnic University (PolyU) has collaborated with international experts to analyse the estimated changes in land water storage over the past 40 years by utilising space geodetic observation technology and global hydrological change data. This innovative method has revealeda rapid depletion in global soil moisture, resulting in a significant amount of water flowing into the oceans, leading to a rise in sea levels. The researchprovides new insights into the driving factors behind the alarming reduction in terrestrial water storage and rise in sea levels. The findings have been published in the international journal Science. Since polar motion reflects mass redistribution within the Earth system, integrating models and observations across the atmosphere, hydrosphere and lithosphere is crucial. However, previous challenges in measuring terrestrial water storage, particularly groundwater and root zone soil moisture, limited understanding of hydrological depletion at continental scales. Prof. Jianli CHEN, Professor of the PolyU Department of Land Surveying and Geo-informaticsand core member of the Research Institute for Land and Space and the international team employed satellite altimetry and gravity missions, including the Gravity Recovery and Satellite Experiment (GRACE), and GRACE Follow-On, to enable continental-scale observations of terrestrial water storage variations. By integrating this with global mean sea levels and polar motion data, the team has explored terrestrial water storage depletion patterns. Notably, this study introduced novel methods for estimating global soil moisture, which improves the accuracy of continental and global scale modeling to enable a more effective understanding of soil moisture variations under climate change. The melting of Greenland’s ice sheet is recognised as the largest single contributor to the rise in global sea levels, adding approximately 0.8mm annually. This study reveals that between 2000 and 2002, the global terrestrial water storage significantly declined, with a total of 1,614 billion tons of water lost to the oceans, which is twice as much as resulting from the current melting of Greenland ice, and equivalent to a 4.5mm rise in sea levels. Since then, the rapid loss of terrestrial water storage has been followed by a more gradual but continuous depletion, with no signs of recovery. In addition, compared to the period from 1979 to 1999, a notable decline in global average soil moisture was observed from 2003 to 2021. Between 2003 and 2011, the Earth’s pole shifted 58cm toward 93° East Longitude, demonstrating that the continued decline in soil moisture is leading to a reduction in terrestrial water storage. The team also pointed out that precipitation deficits and stable evapotranspiration caused by global warming, changing rainfall patterns and increasing ocean temperaturesare likely the key factors for the abrupt decline in terrestrial water storage. The ERA5-Land soil moisture data of the European Centre for Medium-Range Weather Forecasts’ corroborates these findings, showing substantial terrestrial water storage losses in Africa, Asia, Europe, and South America. In Asia and Europe, the affected areas expanded from northeastern Asia and eastern Europe to broader regions across East and Central Asia, as well as Central Europe, following the sharp water storage depletion observed between 2000 and 2002. With increasing agricultural irrigation in regionssuch as northeast China and the western United States, and global greening, soil moisture may further diminish in semi-arid areas with intensive agriculture and high levels of greening. The team suggests the need for improved land surface models which consider these factors for a more comprehensive understanding of long- term changes in terrestrial water storage. Prof. Jianli Chensaid, “Sea level change and Earth rotation serve as indicatorsof large-scale mass changes in the Earth system. Accurately measured sea level change and variation in Earth rotation provide a unique tool for monitoring large-scale mass changes in the global water cycle. By integrating multiple modern space geodetic observations, it enables comprehensive analysis of the driving factors behind changes in terrestrial water storage and sea level rise. This, in turn, provides reliable data for climate and Earth system science experts to further investigate drought issues, aiding authorities in formulating water resource management and climate change mitigation strategies to address new challenges posed by climate change.” Online coverage:  Science Daily - https://polyu.me/3Ze0iaP Eurek Alert - https://polyu.me/44zbPoT Bioengineer.org - https://polyu.me/3S6A9Hd      

Prof. HE Mingguang featured in video interview on pioneering ophthalmology technologies

Prof. HE Mingguang, Director of Research Centre for SHARP Vision (RCSV), Chair Professor of Experimental Ophthalmology and Henry G. Leong Professor in Elderly Vision Health, was interviewed by The 21st Century Business Herald to share his research journey in ophthalmology, and introduce his two distinguished studies including the AI-powered portable, self-testing retinal fundus camera for diabetic retinopathy screening, and the use of repeated low-level red-light therapy to reduce the prevalence of myopia in children. Online coverage: The 21st Century Business Herald - https://polyu.me/4dzgzNT Sina - https://polyu.me/4j6mLhj Southern Finance - https://polyu.me/4j6tkjL East Money - https://polyu.me/4j4U4RM NetEase - https://polyu.me/4j4THGS Sohu - https://polyu.me/4dkATSL