News

PAIR is featured in the latest issue of Excel x Impact Spring 2022

PAIR is featured in the latest issue of Excel x Impact published by PolyU! Let's read the full story: https://polyu.hk/QlgKX  

RI-IWEAR member appointed as Limin Endowed Young Scholar in Advanced Textiles Technologies

Congratulation to Dr Dahua Shou, member of the Research Institute for Intelligent Wearable Systems was appointed as Limin Endowed Young Scholar in Advanced Textiles Technologies. An awardee of many prestigious awards, including TechConnect Global Innovation Awards for two consecutive years and those conferred by the International Exhibition of Inventions of Geneva, Dr Shou has published over 60 SCI papers in impactful journals such as Science Advances, PNAS, Advanced Energy Materials, and Advanced Functional Materials. Currently he serves on the editorial boards of four SCI journals and is a lead guest editor for several SCI journals.   The Limin Endowed Young Scholar in Advanced Textiles Technologies is donated by Dr Harry LEE, Chairman of TAL Apparel Limited and member of the Industrial Advisory Committee for RI-IWEAR.   Click the link for more information of the Endowed Young Scholars Scheme.

PAIR Hosts Its First Distinguished Lecture by Professor Catherine P. Koshland of UC Berkely a Big Success

The PAIR Distinguished Lecture Series was successfully held on 22 April 2022. We are honoured to have renowned scholar Prof. Catherine P. Koshland, Interim Executive Vice Chancellor & Provost at University of California, Berkeley, USA, as the invited speaker.  The webinar attracted over 350 participants from over 10 countries and regions. Honourable participants include: (In alphabetical order) Prof. Chetwyn Chan, Vice President (Research and Development) of The Education University of Hong Kong Prof. Leonard Kwok-hon Cheng, President of Lingnan University Mr Richard Leung, Council Member of The Hong Kong Polytechnic University (PolyU) Prof. Paul Poon, Vice Chancellor of CLP Power Academy Prof. James Tang, Secretary-General of University Grants Committee Secretariat Prof. Christian Wagner, Provost of City University of Hong Kong Prof. Wang Wei, Pro-Vice-Chancellor (China) of Edith Cowan University; and Prof. Kwan-Leung Wong, Associate Academic Vice President (Teaching & Learning Development) of Hong Kong Shue Yan University. The webinar was hosted by Professor Qingyan Chen, Director of PolyU Academy for Interdisciplinary Research (PAIR), Chair Professor of Building Thermal Science of Department of Building Environment and Energy Engineering at PolyU. He briefed the audience about the establishment of PAIR with the aim to address societal challenges as outlined in the 17 Sustainable Development Goals (SDGs) set by the United Nations General Assembly, Agenda 2030. “Universities have traditionally been places where scholars and students delve into individual research topics. Their research has been conducted along disciplinary lines in various faculties and departments, with the aim of expanding knowledge within disciplines. However, this approach cannot meet the needs of today. Thus, PolyU established ten Research Institutes (RIs) and five Research Centres (RCs) under PAIR that aim to generate unique knowledge, develop joint innovative projects, and achieve the SDGs” he explained. Prof. Koshland was then introduced by Professor Jin-Guang Teng, President of PolyU. “I remember that in 2009, when I was the Dean of the Faculty of Construction and Land Use (now, it has been renamed as Faculty of Construction and Environment, FCE), we had invited Prof. Koshland to be the guest of honour in the PolyU 15th Congregation Ceremony. I am very pleased to meet her again today and would like to thank for her great support to PAIR.”   Using UC Berkeley as an exemplar, Prof. Koshland gave us a distinguished lecture on ‘Lighting the Way with Interdisciplinary Research since 1868’.  One of the hallmarks of UC Berkeley has always been engagement of its faculty and students in research and education that expand in cross disciplines, joining on multiple approaches to address major challenges facing the world today, which is also what we are seeking to do at PAIR of PolyU. Moreover, Prof. Koshland shared with us the ways in which individuals and institutions can engage in interdisciplinary and multi-disciplinary research and education and how they can be creatively intertwined.  At the beginning of the webinar, Professor Koshland briefly presented the collaboration of co-authored and published of over 45,000 papers in peer reviewed journals with colleagues at over 6,000 universities and research institutions in the world including PolyU. She then explained why, when and how to establish interdisciplinary academic structures and research collaborations in UC Berkeley. “Obviously, to address a problem, you can’t solve without a diverse team, and no single individual can do that, and again, those efforts require collaborative efforts,” she claimed. She further explained that such interdisciplinary team can develop a powerful tool or method that can address many questions across many disciplines. After that, Prof. Koshland talked about the importance of establishing Organised Research Units, connecting with other world leaders via transformational partnerships and transforming the professoriate to recruit the best minds to define new fields of collaborative research.  UC Berkeley faculty can engage in collaborative, multidisciplinary and interdisciplinary research through its 50 multidisciplinary institutes and centers, 41 UC Natural Reserve sites, and 7 Research Museums. The University also engages a lot with national laboratories, UC San Francisco and even National Aeronautics and Space Administration (NASA). Such transformational partnership with NASA not only enables collaborative research in aeroscience, astrobiology, space and earth sciences, AI for flight systems, etc., but also helps attract new faculty and student talent to the University.  To conclude the lecture, Prof. Koshland gave advice on opening competitions between faculty members which can help identify the best ideas, and top management should lead with faculty ideas and strengths.  It is also important to invest in a sizable and manageable set of initiatives strategically.  A panel discussion session was followed.  The session was moderated by Prof. Christopher Chao, Vice President (Research and Innovation) and Chair Professor of Thermal and Environmental Engineering at PolyU, and joined by two panellists, Prof. Xiang-dong Li, Dean of Faculty of Construction and Environment and Chair Professor of Environmental Science and Technology at PolyU as well as Prof. Yuguo Li, Associate Dean (Research) of Faculty of Engineering and Chair Professor of Building Environment at The University of Hong Kong.  The audience was impressed and inspired by Prof. Koshland and had a fruitful discussion with her in the areas of teaching capacity and compensation of faculty members, key factors of success in interdisciplinary research and education, how can faculty and students overcome the barrier of communication. Please click here for online Review. 

RCSV-SO Joint Distinguished Lecture - “How the Baby Learns to See: Critical Periods Re-visited”

Award-winning Project by RiFood member: AkkMore™: a Fungus and Plant Based Supplement Against Obesity or Prediabetes

Dr Gail Jinhui Chang, Core Member of the Research Institute for Future Food (RiFood), developed AkkMore™: a fungus and plant-based supplement against obesity or prediabetes which received the silver medal at the Geneva Inventio Expo earlier. AkkMore™ is a nutritional supplement formula drink that improves users’ body conditions by building a healthy #microbiome. The drink boosts 𝘈𝘬𝘬𝘦𝘳𝘮𝘢𝘯𝘴𝘪𝘢 𝘮𝘶𝘤𝘪𝘯𝘪𝘱𝘩𝘪𝘭𝘢 in human guts, reduces #metabolic disorders and therefore helps users to #loseweight. Please click the link to watch the video for this award-winning project: https://bit.ly/3NUwYz4 

Award-winning Project by RI-IWEAR member: Omni-Cool-Dry™: a Desert Beetle Inspired Skin-like Fabric for Dynamic Thermal and Moisture Management

Dr Shou Dahua, a member of the Research Institute for Intelligent Wearable Systems (RI-IWEAR), developed a desert beetle inspired skin-like fabric, which promises all-day cool, dry, breathable, and comfortable feelings under dynamic thermal conditions. This unique fabric quickly dissipates excessive sweat as water droplets to avoid sensation of wetness and saturation. It also reflects solar radiation and emits body heat to the cold universe for cooling. Compared to conventional fabrics, 𝘖𝘮𝘯𝘪-𝘊𝘰𝘰𝘭-𝘋𝘳𝘺™ weighs 75% less, dissipates sweat 3 times faster, and is 50% less clingy during heavy perspiration. The human skin can be cooled by 5°C lower than with a commercial cotton fabric. This fabric will help the outdoor enthusiasts and athletes to perform the best. It will also be desirable to professionals such as medical personnel, construction workers, and firefighters for more endurance. Please click the link to watch the video for this award-winning project: https://bit.ly/3rfOeF6 

Award-winning Project with involvement of RIAIoT members: Algorithmic Music Composition Software for Popularising AI Education

Dr Chen Gong, a PhD alumnus, under the supervision of Prof. Jiannong Cao, Director of Research Institute for Artificial Intelligence of Things (RIAIoT), and Dr Yan Liu, Director of Cognitive Computing Lab, developed an AI-powered algorithmic music composition software for popularising AI education for non-professionals. By using the software, user can have a hands-on experience on how those AI algorithms work. It could let people know that AI is not just a cutting-edge technical subject, but an interesting and beautiful one. This software received a bronze medal at the Geneva Inventions Expo 2022. Video: https://bit.ly/3uzDMKV

Award-winning Project by RCDSE: Camera Pointing System for China’s Lunar Exploration Missions (Chang'e 3 and 4)

The precision robotics research team led by Professor Yung received the Gold Medal with Congratulations of the Jury at the Geneva Inventions Expo 2022 for the project “Camera Pointing System for China’s Lunar Exploration Missions (Chang'e 3 and 4)”. PolyU is the only university in Hong Kong taking part in the Nation’s space missions and actively contributing to the national space technology. The awarded project entitled “Camera Pointing System for China’s Lunar Exploration Missions (Chang'e 3 and 4)”. Installed on top of the lunar lander, it facilitates panoramic image capturing and rover movement observation on the moon, and helps construct a precision 3D model of the landscape for safe rovering. With a complex design and a weight of only 2.8 kg, it is sturdy enough to protect the camera against shock and vibration during the space mission and ensure its proper functioning under the extreme lunar environment. The invention was completed and successfully deployed on the Moon front surface with the Chang’e 3 and Moon far side with the Chang’e 4 missions of China’s Lunar Exploration Programme. Please click the link to watch the video for this award-winning project: https://bit.ly/3Kbuslu

Award-winning Project by RILS member: Umicool: an Eco-friendly Smart Sub-ambient Radiative Cooling (SSRC) Coating

A team led by Prof. Jianguo Dai, Management Committee Member of the Research Institute for Land and Space (RILS) and Founder of Pro-Infra Science & Technology Limited (a PolyU Academic-led start-up), developed the eco-friendly, long-lasting, self-cleaning, low-cost polymeric radiative cooling coating which can reduce the interior temperature of buildings/infrastructure by 6°C as compared to the ambient temperature under direct sunlight without electricity consumption. UmiCool can scatter sunlight, convert absorbed UV light to fluorescence emissions and re-emit infrared radiation to the cold universe. The project received a Gold Medal in this year’s online special edition of the Geneva Inventions Expo recently. Please click the link to watch the video for this award-winning project: https://bit.ly/3j4WkvM

Important Progress made by RI-IWEAR in Efficient and Scalable Moisture-Electric Generators made from Ionic Hydrogel

In the context of global resource shortage and high demand for carbon neutrality, it is of great significance to find simple and efficient green energy conversion technology to achieve sustainable development of energy and society. Moisture-electric generator (MEG) is based on the chemical energy from atmospheric moisture to generate electricity directly, without the generation of pollutants and harmful gas emissions, which is an emerging research focus in the energy field. However, most MEGs suffer from intermittent electrical signals and low current. In addition, the realization of large-scale integration and practical applications is still the bottleneck of current research. To address this issue, Prof. Tao’s research team have developed a novel and efficient ionic hydrogel moisture-electric generator (IHMEG), which converts the chemical energy released by captured moisture in the air into electricity, realizing efficient current density and power output. A single IHMEG unit of 0.25 cm2 can continuously generate direct-current electricity with a constant open-circuit voltage of ~0.8 V for over 1000 hours, a high short-current density of 0.24 mA·cm-2 and power density of up to 35 mW·cm-2. Of great importance is that large-scale integration of IHMEG units can be readily accomplished to offer a high voltage of up to 210 V, making the flexible IHMEG assembly capable of directly driving numerous commercial electronics, including electronic ink screen, metal electrodeposition setup and even light-emitting-diode arrays. This IHMEG device with high cost-efficiency, easy-to-scaleup fabrication and high power-output opens a brand-new perspective to develop a green, versatile and efficient power source for Internet-of-Things and wearable electronics. The work is published in Advanced Materials (https://doi.org/10.1002/adma.202200693) recently. The first author is a PhD graduate, Dr. Yang Su.