Skip to main content Start main content
0e86d795ff33404e9b20c8cbde30347

Visit by Guangdong Provincial Department of Science and Technology

 A delegation led by WANG Yueqin, Director of Guangdong Provincial Department of Science and Technology visited the Hong Kong Polytechnic University (PolyU) on 29 January.  The delegation had in-depth meetings and discussions with Prof. Jin-guang TENG, President; Prof. Christopher CHAO, Vice President (Research and Innovation); Prof. Zuankai WANG, Associate Vice President (Research and Innovation), Prof. Xiang-doing LI, Dean of Faculty of Construction and Environment, Ir Prof. H.C. MAN, Dean of Faculty of Engineering, and Prof. Qingyan CHEN, Director of PolyU Academy for Interdisciplinary Research. During the meeting, Prof. TENG presented in details on PolyU’s development goals in applied research, innovation and entrepreneurship, as well as its outstanding achievements in engineering and technology disciplines. He emphasised that PolyU has always been committed to addressing societal challenges, creating courses that align with industry applications, and cultivating talents with international vision and innovative spirit. Director WANG suggested that Guangdong and Hong Kong have a deep-rooted foundation and broad prospects for cooperation in technological innovation. To better meet the national strategy and the innovation and economic social development needs of the Guangdong-Hong Kong-Macao Greater Bay Area, Guangdong Province has established multiple platforms for technological innovation cooperation. These platforms provide strong support for scientific research cooperation between Guangdong, Hong Kong, and Macao, focusing on areas of common interest to carry out in-depth research collaborations. PolyU places a strong emphasis on application-oriented research and holds the confident to play an important role in leading industrial development through technological innovation.  

31 Jan, 2024

Events

p2

11 PolyU projects secure RGC Collaborative Research Funding

11 projects from The Hong Kong Polytechnic University (PolyU) has secured support from the Collaborative Research Fund (CRF) of the Research Grants Council (RGC) in 2023/24. Nine of them are funded from the Collaborative Research Project Grant (CRPG) and two projects from the Young Collaborative Research Grant (YCRG). Prof. Christopher CHAO, Vice President (Research and Innovation) of PolyU, said, “This outstanding result is encouraging and highlights PolyU's prowess in impactful research. The University is committed to providing outstanding and creative interdisciplinary research to support Hong Kong's innovation and technological development, as well as to nurturing young talented researchers in a mutually supportive, interdisciplinary, and forward-thinking research culture. We look forward to collaborating with various partners in supporting our future professional scientists.” The nine projects funded from the CRPG received total support of over HK$55.5 million, with this funding amount being the highest among local institutions. The projects embrace a number of leading areas, including edge artificial intelligence, artificial auditory systems, nanomaterials, cancer diagnosis, age-related metabolic disease, and construction and environment. The other two projects, funded from the YCRG, cover neural networking in psychology and behaviour and 6G-based sensing technologies respectively. The CRF supports multi-investigator, multi-disciplinary projects to encourage research groups to engage in creative and high-quality cross-disciplinary / cross-institutional projects. Under the CRF, the CRPG aims to enhance the research output of universities in terms of attainment level, quantity, dimensions and impact. The YCRG aims to support early-stage academic staff members in gaining first-hand experience in leading and managing collaborative research. For further information of these PolyU funded projects, please refer to the appendix.

30 Jan, 2024

Awards and Achievements

1

PolyU develops the first self-adaptive platform for tourism demand forecasts across the Greater Bay Area

Total international visitor arrivals to the Greater Bay Area (GBA) are forecasted to recover to the pre-pandemic level at close to 130 million by the end of 2024, and the total number of inbound visitor arrivals to Hong Kong to recover to the 2018 level of 65 million by 2025. These are some of the findings released by the School of Hotel and Tourism Management (SHTM) of The Hong Kong Polytechnic University (PolyU) today at the launch of a new forecasting platform under the project entitled “The Development of an Automated and Self-Adaptive Tourism Demand Forecasting Platform for the Greater Bay Area (GBA-TDFP).” Led by Prof. Haiyan SONG, Principal Investigator and SHTM Associate Dean, Chair Professor and Mr and Mrs Chan Chak Fu Professor in International Tourism, the project adopts an interdisciplinary approach to integrate well-established theories in economics, tourism management and computer science to develop GBA-TDFP. It features key functions that include big data visualisation, market sensitivity analysis, short-, medium- and long-term forecasting, sentiment analysis, and interactive scenario forecasting, and will serve as a valuable tool for industry professionals, policy makers and academics to adapt and generate forecasts of visitor arrivals to the GBA in different economic scenarios. Tourism is considered a key industry in the GBA, with its sights set on becoming a world-leading destination by 2035. While the economy has now largely recovered from the shocks caused by travel restrictions and public health measures taken during the pandemic, there are still challenges to overcome, including labour shortage, supply constraints, changing economic conditions, and shifts in consumer behaviour. “It all points to the fact that in order to sustain ongoing recovery,” Prof. Song remarked, “accurate forecasts of tourism demand recovery are crucial for policy makers and practitioners to be able to develop sustainable tourism strategies that foster long-term economic growth in the region.” To facilitate accurate forecasting, the project has collected macroeconomic data such as GDPs, CPIs and exchange rates of the GBA cities and their key source markets from statistical departments and international organisations such as the International Monetary Fund. For short-term tourism demand forecasting, the project has leveraged big data collected from popular online and social media platforms such as Google, Ctrip and Baidu. Analysis reveals that: According to the short-term forecasting results, it is expected that there will be a significant rebound in inbound visitor arrivals to Hong Kong and Macao, by the end of 2024. Mainland Chinese cities within the GBA are projected to experience a substantial recovery in domestic visitor arrivals and visitor flows within the GBA, by the end of 2024. These projections suggest that the volume of visitors will reach levels comparable to those observed before the pandemic. The five-year-ahead long-term tourism demand forecasting results indicate that the total number of domestic and inbound visitor arrivals into the GBA, as well as visitor flows within the GBA, will return to the pre-pandemic levels by the end of 2024. By 2027, the GBA as a whole is expected to witness over 335 million domestic visitor arrivals, along with 195 million inbound visitor arrivals. Visitor flows within the GBA are projected to reach 200 million. In the GBA, visitor reviews overwhelmingly lean towards the positive side for all destinations. These encouraging reviews not only validate the robust recovery of the tourism industry in all GBA destinations but also signify the immense potential for further growth in the GBA tourism market. Meanwhile, moderate and negative reviews still point out critical areas for the destinations to further improve, including service quality and border control. Across all destinations, the monthly average satisfaction levels of visitors, as reflected by sentiment scores extracted from their reviews, are consistently positive. However, there are fluctuations in daily satisfaction levels, indicating that experiences may vary from day to day. There are also noticeable discrepancies in satisfaction levels across different tourism activities. Forecasting results for the GBA generated by the platform.   The GBA-TDFP serves to simplify the process for policy makers and industry leaders to conduct “what-if” scenario analyses on tourism demand forecasts. Users can input hypothetical values for determinant variables (such as GDP and price levels) through web browsers, which are then incorporated into the estimated econometric models to generate scenario forecasts. This functionality is deemed particularly valuable for policy evaluation and decision-making purposes. With advances in technology, destinations and visitors are increasingly dependent on information and communications technologies. By integrating cloud computing, big data and artificial intelligence techniques with advanced forecasting methods, the GBA-TDFP offers innovative insights and valuable guidance for both industry professionals and academics, effectively transforming vast amounts of data into actionable information, enabling stakeholders to make informed decisions and maximise the value derived from it. Prof. Kaye CHON, SHTM Dean, Chair Professor and Walter and Wendy Kwok Family Foundation Professor in International Hospitality Management, said, “This is another contribution that our School has made to the tourism industry. We are committed to bringing the results of cutting-edge research to business practice, thereby addressing the global challenges that the tourism industry faces.” About PolyU School of Hotel and Tourism Management For 45 years, the School of Hotel and Tourism Management (SHTM) of The Hong Kong Polytechnic University has refined a distinctive vision of hospitality and tourism education and become a world-leading hotel and tourism school. Ranked No. 1 in the world in the “Hospitality and Tourism Management” category in ShanghaiRanking’s Global Ranking of Academic Subjects 2023 for the seventh consecutive year; placed No. 1 globally in the “Commerce, Management, Tourism and Services” category in the University Ranking by Academic Performance in 2022/2023 for six years in a row; rated No. 1 in the world in the “Hospitality, Leisure, Sport & Tourism” subject area by the CWUR Rankings by Subject 2017; and ranked No. 2 in the world among university based programmes in the “Hospitality and Leisure Management” subject area in the QS World University Rankings by Subject 2023 for the seventh consecutive year, the SHTM is a symbol of excellence in the field, exemplifying its motto of Leading Hospitality and Tourism. The School is driven by the need to serve its industry and academic communities through the advancement of education and dissemination of knowledge. With a strong international team of 90 faculty members from 20 countries and regions around the world, the SHTM offers programmes at levels ranging from undergraduate to doctoral degrees. Through Hotel ICON, the School’s groundbreaking teaching and research hotel and a vital aspect of its paradigm-shifting approach to hospitality and tourism education, the SHTM is advancing teaching, learning and research, and inspiring a new generation of passionate, pioneering professionals to take their positions as leaders in the hospitality and tourism industry. Website: https://www.polyu.edu.hk/shtm/

29 Jan, 2024

Research and Innovation

WILL8728

PolyU participated in the Asian Universities Science and Technology Innovation Forum

The Asian Universities Science and Technology Innovation Forum jointly organized by the China Association for International Exchange of Personnel (CAIEP) and the Japan Science and Technology Agency (JST) was held from 27 to 28 January in Hong Kong. More than 30 presidents or vice-presidents from leading universities in China (including Hong Kong and Macau), Japan and other Asian countries and regions were invited to attend the Forum. They held discussions and exchanged views during the event, which aimed at strengthening cooperation among Asian universities in response global challenges and building collaboration platforms to drive science and technology innovations. Professor Christopher Chao, Vice-President (Research and Innovation) of PolyU, was invited to deliver a keynote speech at the forum and participate in a roundtable discussion. The top management of Asian universities discussed the strategies to nurture and retain young talents, aiming to contribute to the advancement of technological innovation in Asia and worldwide. On the second day of the event, leaders from these universities visited PolyU’s National Rail Transit Electrification and Automation Engineering Technology Research Center (Hong Kong Branch) and the University Research Facility in 3D Printing. The visitors were impressed by the high-impact applied research and development achieved by these research centers.

27 Jan, 2024

Events

11

PolyU develops high-efficiency carbon dioxide electroreduction system for reducing carbon footprint and progressing carbon neutrality goals

Global warming continues to pose a threat to human society and the ecological systems, and carbon dioxide accounts for the largest proportion of the greenhouse gases that dominate climate warming. To combat climate change and move towards the goal of carbon neutrality, researchers from The Hong Kong Polytechnic University (PolyU) have developed a durable, highly selective and energy-efficient carbon dioxide (CO2) electroreduction system that can convert CO2 into ethylene for industrial purposes to provide an effective solution for reducing CO2 emissions. This research was recently published in Nature Energy and won a Gold Medal at the 48th International Exhibition of Inventions Geneva in Switzerland. Ethylene (C2H4) is one of the most in-demand chemicals globally and is mainly used in the manufacture of polymers such as polyethylene, which, in turn, can be used to make plastics and chemical fibres commonly used in daily life. However, it is still mostly obtained from petrochemical sources and the production process involves the creation of a very significant carbon footprint. Led by Prof. Daniel LAU, Chair Professor of Nanomaterials and Head of the Department of Applied Physics, the research team adopted the method of electrocatalytic CO2 reduction - using green electricity to convert carbon dioxide into ethylene, providing a more environmentally friendly alternative and stable ethylene production. The research team is working to promote this emerging technology to bring it closer to mass production, closing the carbon loop and ultimately achieving carbon neutrality. Prof. Lau’s innovation is to dispense with the alkali-metal electrolyte and use pure water as a metal-free anolyte to prevent carbonate formation and salt deposition. The research team denotes their design the APMA system, where A stands for anion-exchange membrane (AEM), P represents the proton-exchange membrane (PEM), and MA indicates the resulting membrane assembly. When an alkali-metal-free cell stack containing the APMA and a copper electrocatalyst was constructed, it produced ethylene with a high specificity of 50%. It was also able to operate for over 1,000 hours at an industrial-level current of 10A – a very significant increase in lifespan over existing systems, meaning the system can be easily expanded to an industrial scale. Further tests showed that the formation of carbonates and salts was suppressed, while there was no loss of CO2 or electrolyte. This is crucial, as previous cells using bipolar membranes instead of APMA suffered from electrolyte loss due to the diffusion of alkali-metal ions from the anolyte. The formation of hydrogen in competition with ethylene, another problem affecting earlier systems that used acidic cathode environments, was also minimised. Another key feature of the process is the specialised electrocatalyst. Copper is used to catalyse a wide range of reactions across the chemical industry. However, the specific catalyst used by the research team took advantage of some distinctive features. The millions of nano-scale copper spheres had richly textured surfaces, with steps, stacking faults and grain boundaries. These “defects” – relative to an ideal metal structure – provided a favourable environment for the reaction to proceed. Prof. Lau said, “We will work on further improvements to enhance the product selectivity and seek for collaboration opportunities with the industry. It is clear that this APMA cell design underpins a transition to green production of ethylene and other valuable chemicals and can contribute to reducing carbon emissions and achieving the goal of carbon neutrality.” This innovative PolyU project was a collaboration with researchers from the University of Oxford, the National Synchrotron Radiation Research Centre of Taiwan and Jiangsu University.

23 Jan, 2024

Research and Innovation

IMG_4959

Visit by Delegation of Wenzhou Municipal People’s Government

A delegation led by Mr. WANG Zhenyong, the Deputy Mayor of Wenzhou Municipal People's Government, visited the Hong Kong Polytechnic University (PolyU) from January 23 to 24 to exchange views on deepening technological innovation cooperation between Hong Kong and Wenzhou. On January 23, the University’s senior management and researchers represented by Prof. Christopher CHAO, Vice President (Research and Innovation) of PolyU, had a discussion with the Wenzhou delegation on the PolyU-Wenzhou Technology and Innovation Research Institute (Research Institute), and the planning and construction of the Zhejiang (Hong Kong and Macao) High-tech Industrial Park. Subsequently, Prof. Tao YU, Associate Director of Research Institute for Sustainable Urban Development, and Dr Yu XIANG, Assistant Professor (Research) of the Department of Civil and Environmental Engineering, led the delegation to visit the Industrial Centre Laboratory and introduced PolyU's achievements in new-material structural technologies for marine engineering. Dr Qiyao HUANG, Assistant Professor of the school of Fashion and Textiles, team of Prof. Zijian ZHENG, Associate Director of Research Institute for Intelligent Wearable Systems, introduced the Liquid-metal fiber mats and their applications in epidermal electronics and implantable electronics, as well as Textile lithium batteries. On the second day, under the guidance of Prof. KEE Chea-su, Head of School of Optometry and Prof. Benny C. F. CHEUNG, Director of State Key Laboratory of Ultra-precision Machining Technology (PolyU), the delegation visited the Centre for Eye and Vision Research and the State Key Laboratory of Ultra-precision Machining Technology (Hong Kong Science Park Branch), gaining insights into PolyU’s scientific research achievements and future development direction in cutting-edge technology fields. The State Key Laboratory of Ultra-precision Machining Technology (Hong Kong Science Park Branch) focuses on the development of ultra-precision machining equipment, precision measurement system, precision manufacturing technologies, as well as the development of core optical components for advanced optics, optometry and electronic products. On 9 November 2023, PolyU and the Wenzhou Municipal People's Government held a signing and unveiling ceremony at the Wenzhou People's Hall, marking the official landing of the PolyU-Wenzhou Technology and Innovation Research Institute, with the aim of promoting Wenzhou to become a key innovation and technology hub for entrepreneurs and talents. This visit will greatly promote the progress of the Research Institute and deepen the technological innovation cooperation between Wenzhou and Hong Kong.

23 Jan, 2024

Events

2024NUJ

PolyU scholar wins APEC INPUT2 Excellence Award as the sole honoured university from Hong Kong

The Hong Kong Polytechnic University (PolyU) scholar has developed innovative outdoor cooling solutions aimed at creating a more comfortable and livable urban environment. This achievement has been recognised with the Excellence Award at the Innovating for Public Urban Technology Transformation Competition (INPUT 2), which is organised by the Ministry of Science and Technology of the People’s Republic of China and supported by the Asia-Pacific Economic Cooperation (APEC). PolyU is the only university in Hong Kong to receive this honour in the competition. Led by Prof. NIU Jianlei, Chair Professor of Building Environment and Energy at Department of Building Environment and Energy Engineering of PolyU, the project titled “Human-oriented outdoor thermal environment evaluation and optimization design” won the Excellence Award at INPUT 2. Prof. NIU, along with members of the research team, including Dr YU Yichen and Dr XIE Yongxin Sherry, Research Assistant Professors of Department of Building Environment and Energy Engineering, has developed a simulation tool for assessing outdoor pedestrian thermal comfort levels and a logical design for optimising cooling strategies. It includes a novel membrane-assisted radiant panel that enhances localised spot-cooling effects. This innovative approach will enable better design for outdoor thermal comfort and promote the utilisation of outdoor spaces by residents. Ultimately, it improves public health and the overall quality of urban life and contributes to the reduction in city-wide energy consumption by reducing reliance on air conditioning systems. INPUT 2 is proposed by the Ministry of Science and Technology of the People’s Republic of China to APEC and approved by APEC’s Policy Partnership on Science, Technology and Innovation (PPSTI). INPUT 2 focuses on three key areas: green economy, sustainable transport development, and livable cities, with a view to promote the idea of sustainable urban development, exchange and cooperation in innovation and application of scientific and technological achievements.

18 Jan, 2024

Awards and Achievements

1

PolyU’s cutting-edge technologies enrich colours on over 100 million high-end smart devices worldwide

The Hong Kong Polytechnic University (PolyU) has recently developed a series of colour management technologies that enable digital displays and imaging devices, such as light-emitting diode (LED) and organic light-emitting diode (OLED) lighting systems, smartphones, cameras, as well as extended reality (XR, covering virtual reality (VR), augmented reality (AR) and mixed reality (MR)) headsets, to capture and reproduce colours more faithfully, thereby enhancing the user experience. These cutting-edge technologies have been successfully commercialised and widely adopted by social media, imaging systems and manufacturers of LED lighting products, smartphones and drones. Over 100 million high-end smart devices worldwide each year have been powered by the technologies. New technologies like OLED and Quantum-dot LED (QLED) have much narrower spectral compositions, making cameras and displays more and more difficult to capture and produce consistent colour appearance. This has presented unprecedented challenges in colour management for digital devices. Prof. Tommy Minchen WEI, Professor of the Department of Building Environment and Energy Engineering and Director of the Colour Imaging and Metaverse Research Centre at PolyU, along with his research team, has developed the following colour management technologies: A six-channel RGBACL (Red, Green, Blue, Amber, Cyan and Lime) lighting module and control algorithm enhances the colour presentation of LED lighting systems. The algorithm for tuning the colour appearance of human face skin allows quick adjustment when captured by different cameras. This technology has been used by a famous manufacturer of cinema lighting fixtures and in the production of several Hollywood movies and TV series. Various solutions capture and display colours on video and image shooting equipment, encompassing the implementation of artificial intelligence (AI) technology to detect human faces in the frame and to optimise the colour appearance of skin tone. Chips with AI-powered white balance algorithm built-in ensure more faithful colours in photos and videos taken by digital cameras under different environment. These technologies have been adopted by world-class smartphone and XR device manufacturers. Other, related technologies include: Colour processing for images dominated by a single colour in telephoto and macro shooting Colour tuning during image processing Colour capture and reproduction of high dynamic range (HDR) scenes Ensured colour consistency of displays used in various devices A self-adjusting colour algorithm for mixed reality headsets   Prof. Tommy Minchen Wei said: “As more and more users embrace the metaverse, hyper-realistic digital realms have presented us with radically new ways to work, play and connect. Colour is an integral part of the metaverse experience. By developing cutting-edge algorithms and AI-powered solutions, I hope we can help content creators deliver the exact colours that they want users to see and allow users to immerse themselves in a more lifelike virtual world.” Prof. Wei has made significant contributions to scientific research in the field of colour science and has been awarded funding by various prestigious organisations. These include the Research Grants Council’s Research Impact Fund and General Research Fund, the National Natural Science Foundation of China’s 2022 Excellent Young Scientists Fund (Hong Kong and Macao) from, and the Electrical and Mechanical Services Department in Hong Kong. For his exceptional research accomplishments, he has received numerous awards, including the Google Research Scholar Award, the 2022 PolyU Young Innovative Researcher Award and 2022 PolyU President’s Award for Outstanding Achievement in Knowledge Transfer. To accelerate the translation of research outcomes and create significant community impact, Prof. Wei last year co-founded Guardian Glow Limited. The startup focuses on the development of personalised AI smart devices (including for health monitoring) and solutions for key technologies used in XR headsets. Guardian Glow has successfully attracted financial support from various venture capital funds, as well as from angel and private investors to further develop its user experience enhancing colour management technologies.

17 Jan, 2024

Research and Innovation

20240116 - PolyU secures Strategic Public Policy Research Funding from the Government-02

PolyU secures Strategic Public Policy Research Funding from the Government to drive cross-regional cooperation in GBA construction industry

The Hong Kong Polytechnic University (PolyU) is committed to conducting public policy research, leveraging its research strengths to benefit the community. The University has been granted funding from the Chief Executive’s Policy Unit’s Strategic Public Policy Research Funding Scheme (SPPRFS) 2023/24, being the only institution receiving such support this year. Developing the Guangdong-Hong Kong-Macao Greater Bay Area (GBA) is a critical step in implementing the principle of “One Country, Two Systems”. Led by Prof. Geoffrey Q.P. SHEN, PolyU Associate Vice President (Global Partnerships) and Chair Professor of Construction Management of the Department of Building and Real Estate, the project “Policy Framework for Cross-Regional Cooperation Strategies in the Greater Bay Area’s Construction Industry” has received HK$3.96 million funding support from the SPPRFS 2023/24 for a period of 36 months. Focusing on development opportunities for the GBA under the National 14th Five-Year Plan, the research examines three strategic areas - talent cooperation, project management cooperation and regulatory cooperation. It aims to provide effective guidance and identify appropriate strategies to enable government departments and the industry to promote high-quality cooperation within the construction industry across the GBA. In addition to this funding, in the two rounds of the Public Policy Research Funding Scheme (PPRFS) 2023/24, PolyU secured funding for a total of eight projects encompassing different key areas such as cooperation with the Mainland, economic development, innovation and technology, environmental protection, education and youth development, political development and governance, and livelihood issues. PolyU projects funded in the latest round include: “Assessing the Adaptation of New Energy Vehicles in Hong Kong: The Future of Hydrogen Fuel Cell Vehicles and Electric Vehicles”, led by Prof. Christopher CHAO, Vice President (Research and Innovation) and Director of the Policy Research Centre for Innovation and Technology; “Policy Recommendations on Sustainable Logistics Development in Hong Kong under the Global ESG Trend and Initiatives”, led by Dr Yung Po TSANG, Research Assistant Professor of the Department of Industrial and Systems Engineering; “Electrifying the Bus System in Hong Kong: Feasibility Analysis and System Optimization”, led by Dr ZHUGE Chengxiang, Assistant Professor of the Department of Land Surveying and Geo-Informatics; and “Relationship between Travel Behaviour and Built Environment Factors: Impacts on Mobility and Quality of Life of People with Physical Disabilities”, led by Dr Esther H.K. YUNG, Associate Professor of the Department of Building and Real Estate. Prof. Christopher CHAO, Vice President (Research and Innovation) of PolyU, said, “PolyU has always been dedicated to conducting evidence-based research projects, ensuring we remain aligned with national development and contribute strategic suggestions for public policy research in Hong Kong. We are delighted to have attained excellent results in both funding programmes initiated by the Chief Executive’s Policy Unit. PolyU will continue to uphold our research strengths, envision the future, and provide innovative solutions for long-term development to fulfill societal needs and benefit all sectors.” SPPRFS and PPRFS are administered by the Chief Executive’s Policy Unit. Funded projects are expected to provide valuable insights into the Government’s policy-making process, with outcomes which can be effectively and practically translated into policy. SPPRFS aims to support longer-term public policy research on strategic themes and research areas identified by the Government, with a funding cap of HK$5 million for each project. PPRFS focuses on smaller-scale public policy research of shorter duration, with a funding cap of HK$1 million or below for each project.  

16 Jan, 2024

Awards and Achievements

F0106 2000x1050

PolyU shares science communication tips on THE Campus

When research reaches a broader audience, it improves the society we live in and inspires the next generation of scientists. Research and Innovation Office at PolyU shares insights with THE Campus on effectively communicating scientific research to a broader audience. The article titled "Science Communication Tips for Marketers" emphasises the importance of reaching a wider audience with research findings and inspiring the next generation of scientists. At PolyU, we firmly believe that we can foster a scientifically literate society that actively engages with innovation and scientific advancements by making scientific knowledge accessible. The article underscores the importance of finding compelling perspectives and developing coordination skills to capture the interest of the media and the public. This article is a testament to our commitment to bridging the gap between scientific research and ongoing efforts to engage with the broader community. Stay tuned for more updates on our research initiatives and collaborations as we continue to make strides in science communication. The full article on THE Campus You may also interested: PolyU Scholar Shares Tactics for Research Competitions on THE Campus PolyU scholar shares experiences on generating lifetime learning to students from research project on THE Campus

15 Jan, 2024

Others

Your browser is not the latest version. If you continue to browse our website, Some pages may not function properly.

You are recommended to upgrade to a newer version or switch to a different browser. A list of the web browsers that we support can be found here