News

RISUD member elected as fellow of the Royal Society of Chemistry

Congratulations to Prof. Dan Tsang, member of RISUD, who had been elected as Fellow of the Royal Society of Chemistry. The Fellow will have demonstrated they hold senior responsibilities, have strategic influence within the sector or have made outstanding contributions to the chemical sciences or to the advancement of the profession.

RISUD member won the Judges Commendation of the Award for Research and Science

Congratulation to Prof. GUO Hai for winning the highly competitive Judges Commendation of the Award for Research and Science issued by the Australia China Alumni Association.

Prof. Antonis GIANNOPOULOS ends his visit at RISUD

Prof. Antonis GIANNOPOULOS works mainly on the development and application of advanced ground penetrating radar and other geophysical techniques primarily for infrastructure sensing applications but also for applications to other areas of near surface geophysics. His research interests include computational electrodynamics and in particular the application and development of the Finite Difference Time Domain (FDTD) method and the numerical modelling of ground penetrating radar. During his visit, Prof. GIANNOPOULOS worked closely with his coordinator, Dr Wallace Lai for idea exchanges. This visit is supported by RISUD International Visiting Scholar Programme, which aims to encourage academic exchange between RISUD members and oversea collaborators.

Project led by RISUD member received Innovation Technology Fund

A project titled “Unfolding the lost WWII heritage: promotion of geo-spatial and geophysical technologies”, led by Dr Wallace LAI (member of RISUD) and Dr Wai Yeung YAN of the Department of Land Surveying and Geo-Informatics (LSGI), recently receives a HK$4.75 million funding support from the Innovation and Technology Fund (ITF). The two-year project will commence in early 2023 to develop airborne geo-spatial and geophysical technologies for imaging selected buried heritage sites in rugged natural terrain in Hong Kong. It is hoped that the project will promote an integrated Art-Tech approach for historical interpretation and heritage conservation in Hong Kong. Congratulation to Dr LAI and Dr YAN!

PolyU researchers compile world’s first “atlas” of airborne microbes that provides an important new perspective for public health research

Bacteria are truly abundant across the Earth’s surface, from the soil to the oceans. The microbial population of the air that surrounds us is comparatively unknown, but a research expedition led by PolyU scientists is about to change that. After nearly a decade of effort, they have compiled a comprehensive map of the world’s airborne microbes, providing fresh insights into how these species interact with the surface environment – as well as their likely future changes. A cubic metre of “empty” air contains 10,000 bacteria or more, and interest in the role of air as a habitat – not merely a conduit – for microbes has grown enormously since the start of the COVID-19 pandemic. In collaboration with researchers on the mainland and the US, the PolyU-led team spent around a year sampling airborne microbes across the world, from ground level to mountaintops. Combining their own results with the most accurate global data collected in past studies, they and their research partners compiled the first ever atlas of the global airborne microbiome. The atlas provides a wealth of insights into the microbial communities floating above the ground. There is no doubt that the air is a unique harbour of bacterial life. Genetic analysis by the team showed that the core communities – the handful of species that form an outsized proportion of the microbe population – were not the same in the air as those in marine or soil ecosystems. In fact, even though the air is a free-flowing medium with seemingly no internal boundaries, these core bacterial communities are distinctly localised and stable. The research team analysed the bacterial communities of 370 individual air particulate samples collected from 63 sites around the world, ranging from those at ground level (1.5 – 2 m high) to rooftops (5 – 25 m high) and high mountains (5,238 m asl), as well as from densely populated urban centres to the Arctic Circle, for a more diverse coverage in terms of altitudes and geographic regions. Prof. Xiang-dong LI, Director of Research Institute for Sustainable Urban Development, Chair Professor of Environmental Science and Technology and Dean of Faculty of Construction and Environment of PolyU who led the research team, said, “We have verified that human activities have certainly changed the structure of microbiomes in the natural ambient air, particularly with a higher abundance of pathogenic bacteria in urban air. Having experienced the pandemic for three years, people now pay more attention to this invisible but influential microbial community. The research outcomes could be served as a critical reference for predicting planetary microbiome responses and the health impacts of inhalable microbiomes with future environmental changes.” The researchers estimate that the total number of microbes occupying the sea or soil is thousands of times larger than those in the air. Nonetheless, the aerial diversity of microbes – known as “richness” – is just as high. This suggests that surface habitats directly contribute microbes to the air. Overturning previous assumptions, vegetation is not the main terrestrial source of airborne bacteria, and the Earth’s vast tracts of soil provide very small fraction. The crashing of waves, the shaking of leaves, and even frequent activities and constant respiration of animals and humans are bigger drivers of bacterial exchange between the surface and the air. Macroscopic life, notably animals and plants, is most diverse in equatorial regions (consider, for example, warm and wet rainforests), and its diversity decreases closer to the poles. For microbes, the picture is more interesting – moving from the equator, diversity maximises at mid-latitudes before falling away again. This pattern was well established for terrestrial and aquatic microorganisms, but the new atlas confirms that it applies to the airborne microbiome, too. The authors surmise that the “bump” in diversity at mid-latitudes is caused by stronger sources of microbial input to those regions. Overall, the researchers estimate that half of airborne bacteria originate from ground sources. Urban air has especially high rates of human-associated bacteria – some harmless, others pathogenic. Direct transfer of germs from people to air is not our only effect on the airborne microbial world. Broad-scale activities such as industrialisation disrupt natural environments and impact air quality. This weakens the environment’s “filter” effect on microbial structure, making the composition of airborne bacteria more affected by random processes – although weather still plays an important role too. The close relationship between modern human activities and the microbes around us underscores the need to predict future changes accurately. The inhalable infectious bacteria that proliferate in cities are particularly of concern considering rapid urbanisation and our growing understanding of airborne contagion, spurred by COVID-19 research. Climate change is another impetus, given the marked effect of temperature on microbial richness, as revealed by the atlas. Hence, the study provides an invaluable resource and an important new perspective for future public health research. The PolyU team collaborated with Prof. James M. TIEDJE, University Distinguished Professor at Michigan State University and scientists from mainland China in the study. The findings were published in the Proceedings of the National Academy of Sciences (https://www.pnas.org/doi/full/10.1073/pnas.2204465119), a peer-reviewed journal of the USA National Academy of Sciences. Press release of PolyU: English - https://polyu.me/3OjSb65; Chinese - https://polyu.me/3Xj84xx   Online coverage: The Standard - https://polyu.me/3GwBmDa Oriental Daily News - https://polyu.me/3EMVVK2 Sky Post - https://polyu.me/3i06r7Z Line Today - https://polyu.me/3Op8NcB People.com - https://polyu.me/3EMWtzJ Mini Eastday - https://polyu.me/3UUutQc Sina - https://polyu.me/3gm9N4O ETNet - https://polyu.me/3Ay1oSC Asiaone - https://polyu.me/3GHSPs6 BirSpectrum - https://polyu.me/3tQ1f9w Hong Kong Economic Journal - https://polyu.me/3EvkaLu (subscription required) SZNews - https://polyu.me/3UVtqj8 GBI Monthly - https://polyu.me/3UUf96j

Four RISUD members recognised amongst the world’s most highly cited researchers

The Hong Kong Polytechnic University (PolyU) has the third highest number in Hong Kong of the world’s most highly cited researchers this year, with 12 PolyU academics (including two former PolyU members) being recognised in the list of “Highly Cited Researchers 2022” by Clarivate Analytics; and 4 of them are the members of RISUD.  A total of 6,938 researchers from 69 countries and regions and spread across a diverse range of research fields are named as Highly Cited Researchers in 2022. The Highly Cited Researchers list by Clarivate identifies the most influential researchers whose publication of multiple highly cited papers during 2011–2021 rank in the top 1% by citations, according to their field and period surveyed in the Web of Science. Prof. Guo Song Professor in the Department of Computing Prof. Daniel Tsang Professor in the Department of Civil and Environmental Engineering Prof. Li Gang Sir Sze-yuen Chung Endowed Professor in Renewable Energy Prof. Yan Feng Professor in the Department of Applied Physics   Press release: English - https://polyu.me/3tFz4tS; Chinese - https://polyu.me/3tF9YLx   Online coverage: Manhattanweek -https://polyu.me/3X872V7 Ticker Tech - https://polyu.me/3hQRrJk A-Performers - https://polyu.me/3ApXbQL Yahoo Finance UK - https://polyu.me/3AmSojh

The Construction R&D Forum – Bringing Applied R&D to a New Height has been successfully held

The Development Bureau and the University-Government-Industry Consortium (UGIC) for Sustainable Urban Development co-organised the Construction R&D Forum – Bringing Applied R&D to a New Height on 4 November. Research Institute for Sustainable Urban Development (RISUD) of PolyU, as the host office of UGIC, were happy to work with the Development Bureau and see the Government playing a key role in driving construction innovation, in particular promoting applied R&D in public works. About 400 participants from local universities and stakeholders from the Government and the construction industry exchanged views at the forum on the promotion and adoption of applied research and development (R&D) to enhance the industry's performance in order to cope with the challenges ahead. Financial Secretary, Mr Paul CHAN Mo-po delivered an opening remark, while our President, Prof Jin-Guang TENG, Ms Bernadette LINN, Secretary for Development of the Development Bureau and Ir Dr Andrew CHAN, Chairman of Steering Committee of the UGIC delivered keynote speeches at this forum. Ir WAI Chi Sing, Managing Director of the Urban Renewal Authority and Ir Ricky LAU, Permanent Secretary for Development (Works) of the Development Bureau chaired and made concluding remarks of the plenary session, respectively. The forum consisted of presentation and discussion sessions, and project exhibition. Five research projects from our RISUD’s researchers were selected to showcase at the forum.

Fifty RISUD Scholars ranked in the World’s Top 2% most-cited Scientists by Stanford University

Fifty RISUD Scholars Ranked World’s Top 2% Scientists in 2022 according to a recent index compiled by Stanford University. The research team of Stanford University, led by Professor John Ioannidis, created a database of over 100,000 top scientists around the world that provides standardized information on citations indicators. The latest dataset is based on the September 1, 2022 snapshot from Scopus. Congratulations to our top scientists who commit to benefiting the world by their research excellence! This achievement recognizes their contribution and influence in their own areas of specialty. Full list could be download from https://elsevier.digitalcommonsdata.com/datasets/btchxktzyw/4   Name (by alphabetical order of surname) Subject Field (Rank within field) Dr AN Liang Energy Dr CAO Sunliang Energy Ir Prof. CHAN Ping Chuen, Albert Building & Construction Cr Dr CHAN Wai Ming Daniel Building & Construction Prof. CHAN Hon Wan, Edwin Urban & Regional Planning Prof. Anthony CHEN Logistics & Transportation Prof. CHU Wei Environmental Sciences Prof. DAI Jian-Guo Civil Engineering Dr DONG You Civil Engineering Ir Prof. GUO Hai Meteorology & Atmospheric Sciences Prof. GUO Song Networking & Telecommunications Dr HSU Li-ta Networking & Telecommunications Prof. HUANG Haitao Nanoscience & Nanotechnology Dr HUANG Xinyan Energy Prof. HUI Chi-man, Eddie Urban & Regional Planning Prof. JIN Wei Optoelectronics & Photonics Dr JING Xingjian Industrial Engineering & Automation Prof. KO Jan Ming Civil Engineering Prof. LAI Kee-hung, Mike Operations Research Prof. LAM Hing Keung, William Logistics & Transportation Prof. LAU Pak-tao Alan Optoelectronics & Photonics Prof. LEE Shun Cheng, Frank Meteorology & Atmospheric Sciences Prof. LI Gang Nanoscience & Nanotechnology Ir Prof. LI Heng Building & Construction Prof. LI Xiangdong Environmental Sciences Prof. LU Chao Optoelectronics & Photonics Ir Prof. LU Lin, Vivien Energy Ir Prof. MAK Cheuk Ming Building & Construction Prof. NGAI Wai Ting, Eric Artificial Intelligence & Image Processing Prof. NI Meng Energy Ir Prof. NI Yi-qing Civil Engineering Ir Prof. NIU Jianlei Building & Construction Ir Prof. POON Chi Sun Building & Construction Prof. SHEN Qiping, Geoffrey Building & Construction Prof. SHI Wenzhong, John Geological & Geomatics Engineering Prof. TAO Xiaoming Materials Prof. TSANG Chiu Wa, Daniel Environmental Sciences Prof. Asif Sohail USMANI Civil Engineering Dr WANG Peng Nanoscience & Nanotechnology Ir Prof. WANG Shengwei Energy Prof. WEN Chih-Yung Aerospace & Aeronautics Prof. WONG Wai Yeung, Raymond Organic Chemistry Prof. XIAO Fu, Linda Energy Prof. YAN Feng Nanoscience & Nanotechnology Ir Prof. YANG Hongxing Energy Ir Prof. Jian-hua Yin Geological & Geomatics Engineering Dr YIN Zhen-yu Geological & Geomatics Engineering Prof. YU Changyuan Optoelectronics & Photonics Prof. Tarek ZAYED Civil Engineering Prof. Songye Zhu Civil Engineering

Two RISUD researchers received NSFC’s Young Scientists Fund 2022

Thirty-nine research projects led by young researchers at PolyU have been recognised by the National Natural Science Foundation of China’s (NSFC) Young Scientists Fund 2022, with PolyU ranking as the top grant recipient in terms of the number of projects awarded funding among local universities. The successful PolyU research projects cover a wide spectrum of topics, including environmental protection, green living environment, climate change, construction technology and innovation in AI-assisted medical devices, fostering a better future for our changing living environment. Among the 39 projects, 2 projects are led by RISUD researchers, Dr Yi Wen and Dr Frank Zou Fangxin. The Fund is open for applications by Hong Kong researchers and universities for the first time. Each project will be granted funding of RMB 300,000 to support basic research work for three years.

Dr. George Liu Appointed as Scientific Advisor to Hong Kong Observatory (HKO)

Prof. George Liu, RISUD member was appointed as a Scientific Advisor by the Director of the Hong Kong Observatory (HKO). Scientific Advisors are expected to help the HKO maintain an active link with the scientific community, advise HKO on long-term scientific and technical development strategies, and provide guidance on research studies and operational applications in specific scientific disciplines.  Over the past decade, Prof. Liu has developed a close collaboration with the HKO and made significant contribution to the meteorological research in Hong Kong and internationally. In the past many years, Prof. Liu and his students at the Micro-Laboratory of Atmospheric Research and Geomatics Engineering (Micro-LARGE) have dedicated to atmosphere observation and modeling using both satellite-based sensors and ground-based in-situ instruments. The advanced algorithms developed at the Micro-LARGE Lab have remarkably improved the observation accuracy of global water vapor from many different satellites – the largest greenhouse gas and an atmospheric constituent playing a critical role in weather change and climate monitoring. Arguably the accuracy of satellite water vapor data produced by the Micro-LARGE represents the world’s highest level of its kind. The sheer amount of high accuracy global water vapor data from different satellites is expected to significantly contribute to global NWP, climate change, hydrology, and many other applications. Currently, Dr. Liu is collaborating with HKO scientists on transforming the Micro-LARGE Lab research outcomes to HKO’s daily weather forecasting work, aiming to enhance HKO’s Numerical Weather Prediction (NWP) performance.