Media Releases

PolyU scientist honoured with prestigious European research award and Academy membership

Prof. Xiao Lin ZHAO, Chair Professor of Civil Infrastructure at The Hong Kong Polytechnic University (PolyU) has been bestowed with the Humboldt Research Award 2023 and elected a Member of the European Academy of Sciences and Arts, in recognition of his achievements in civil engineering. The Humboldt Research Award is granted by the Alexander von Humboldt Foundation in Germany for up to 100 leading international researchers whose discoveries, findings or insights have made significant impact in their disciplines and beyond with cutting-edge achievements. While the Award is open to researchers in all disciplines, Prof. Zhao’s Award is for research excellence in civil and structural engineering. Prof. Zhao has also been elected a Member of the European Academy of Sciences and Arts in the field of technical and environmental sciences. An esteemed non-governmental association, the Academy’s 2,000 members comprise leading scientists, artists and practitioners of governance, and among their members are 37 Nobel Prize winners. As a professor in the Department of Civil and Environmental Engineering at PolyU, and a Fellow of the Australian Academy of Technological Sciences and Engineering, Prof. Zhao’s research focuses on improving the resilience and safety of engineered structures, developing innovative and environmental-friendly construction materials, and the strengthening of ageing metallic infrastructure. He said, “These two achievements are encouraging for me in my endeavours to achieve impactful research and translational innovation. In collaboration with researchers in various PolyU research institutes, I am now undertaking initiatives to develop floating structure technology for innovative land creation as well as floating farms for food sustainability in Hong Kong. These aim to increase Hong Kong’s capacity for sustainable growth and liveability with reduced environmental impact and construction costs.”   ***END***

PolyU research discovers pathogenic mechanism and novel treatment for superbug “Klebsiella pneumoniae” to reduce mortality

Two novel approaches for the treatment of infections caused by antibiotic-resistant superbugs have shown efficacy and good clinical application potential in studies performed by a team from The Hong Kong Polytechnic University (PolyU). Their findings have recently been published in two prestigious journals, namely Signal Transduction and Targeted Therapy under Nature and Journal of Infection. The World Health Organization has repeatedly warned that the emergence and spread of multidrug-resistant microbes, commonly known as "superbugs," could lead to the next wave of public health disasters. Many of the known superbugs actually evolved from normal flora, or bacteria that commonly exist in our body, and may cause a wide range of infections, especially when our immune system is weakened; hence they may readily spread in the hospital and the community, and potentially pose a threat which is more serious and long-lasting than the COVID-19 pandemic. To date, a number of bacterial strains have been classified as superbugs, among which the hyper-resistant and hypervirulent Klebsiella pneumoniae is arguably the one which poses the greatest threat to human health. In 2017, a research team led by Prof. CHEN Sheng, Chair Professor of Microbiology, Member of State Key Laboratory of Chemical Biology and Drug Discovery, and Head of Department of Food Science and Nutrition at PolyU, discovered a newly emerged genetic variant of Klebsiella pneumoniae, namely the hyper-resistant and hypervirulent Klebsiella pneumoniae (CR-hvKP), which can cause untreatable and fatal infections even in healthy individuals. As the name implies, this superbug is not only multidrug-resistant, but also highly invasive. Various studies in China showed that the mortality rate of CR-hvKP infection ranged from 25-45%. To date, CR-hvKP has been regarded as an ‘urgent threat to human health’ by many medical experts worldwide. After several years of intensive research, the research team has recently made major breakthroughs in their efforts to delineate the pathogenic mechanism of CR-hvKP and devise effective intervention strategies. The team also identified the key factors involved in interaction with the host and the nature of the host immune response triggered during the process of infection. Specifically, they discovered the signal pathways through which the pathogen triggers the onset of a cytokine storm, in which the signal molecules can induce uncontrolled activation of immune cells of the host that can eventually develop into septic shock, an extremely dangerous and potentially fatal condition. Subsequent experiments revealed that inhibiting the onset of a cytokine storm could significantly reduce mortality among infected patients. The research team studied the therapeutic value of immunosuppressants such as Acetylsalicylic acid (ASA), and found that ASA can suppress the onset of a cytokine storm in infected mice. ASA, commonly known as Aspirin, is widely used to relieve mild to moderate pain and inflammation. ASA treatment can effectively suppress the infiltration of inflammatory cells into the lungs and drastically reduce cytokine production, decreasing the likelihood of septic shock in the host. This is the first time it has been discovered that immunosuppressants can be used in the treatment of CR-hvKP infection. The new findings provide important insights into the development of new approaches for clinical management of diseases caused by this important pathogen. However, although ASA can protect patients against septic shock during CR-hvKP infection, this compound is unable to eradicate the pathogen. The research team therefore explored the use of a combination of ASA and other antibiotics in the treatment process and found that the therapeutic effect of ASA can be further enhanced by including an effective antimicrobial agent during treatment. However, since CR-hvKP exhibits resistance to almost all known antimicrobial agents and searching for new antimicrobial compounds is not a practical way to address the problem, Prof. Chen’s team adopted a ‘drug repurposing’ approach in a separate but related study, in which they searched for over-the-counter drugs that exhibit antimicrobial effect or can act synergistically with currently used antibiotics and enhance their activity. The team successfully identified a drug called zidovudine, which is an anti-Human Immunodeficiency Virus (HIV) agent, which can act synergistically with the antibiotic rifampicin to eradicate CR-hvKP. The advantage of identifying new antimicrobial compounds through drug-repurposing is that the drugs do not have to go through a lengthy drug development and approval process. It is expected that the zidovudine / rifampicin combination can be used alongside immunosuppressants to treat life-threatening CR-hvKP infections. In summarising the new research findings, Prof. Chen said, “We are glad that our studies were able to identify two promising therapeutic options that may be used alone or in combination to combat the growing threat of Klebsiella pneumoniae, only five years after we discovered the CR-hvKP strain. It should be noted that prompt treatment will reduce mortality and the spread of the pathogen.” He also added, “We plan to validate our findings in clinical trials in the near future and we believe our research efforts will eventually benefit patients and significantly reduce the mortality rate of CR-hvKP infected patients.” The studies that generated the research findings described in the two publications were funded by the Theme-Based Research Scheme and the Research Impact Fund from the Research Grant Council. The studies were also supported by the State Key Laboratory of Chemical Biology and Drug Discovery of PolyU. Furthermore, part of the research was conducted at the City University of Hong Kong (CityU), and one of the studies was conducted in collaboration with Dr Guan YANG of the Department of Infectious Diseases and Public Health at CityU.   ***END***

PolyU’s PReCIT presents second talk in Consul General Talk Series

The second talk in the “Consul General Talk Series”, organised by the Policy Research Centre for Innovation and Technology (PReCIT) and supported by the Department of Applied Social Sciences and the Global Engagement Office of The Hong Kong Polytechnic University (PolyU), was successfully held on 14 June 2023. Mr Almas SEITAKYNOV, Consul General of the Republic of Kazakhstan in Hong Kong and Macao and Vice-consul Mr Kamil BEKENOV, spoke on the cooperation between Kazakhstan and Hong Kong in the field of innovation and technology. A PolyU student from Kazakhstan also shared her insights into student life in Hong Kong. Prof. Christopher CHAO, Vice President (Research and Innovation) of PolyU and Director of PReCIT, said that the Nation has expressed clear support for Hong Kong’s development into an international Innovation and Technology (I&T) hub, which will help further drive I&T development of the Belt and Road Initiative. Mr Seitakynov discussed how Kazakhstan has transformed rapidly into a digital country and how the government’s policies toward developing I&T and innovation has helped accelerate the technological modernisation of the economy. He also highlighted potential I&T collaboration opportunities between Kazakhstan and Hong Kong. Through the sharing of perspectives by diplomats in town, the “Consul General Talk Series” aims to serve as a platform for the PolyU community and the general public to gain insights into the latest I&T developments and policies, as well as about opportunities and prospects in the Belt and Road countries.   ***END***  

Two PolyU innovations in energy and new materials awarded TechConnect 2023 Innovation Awards

The Hong Kong Polytechnic University (PolyU) has won two prestigious TechConnect World Innovation Conference and Expo 2023 (TechConnect) Global Innovation Awards in the areas of energy and new materials. TechConnect is the world’s largest multi-sector event for fostering translational innovations and technology commercialization. This year, marking the seventh consecutive year that the University has received such recognition, PolyU is the only higher education institution in Hong Kong to have snatched awards. PolyU’s winning innovation in the area of “energy, efficiency and environmental” is the world’s first ammonia-powered electric vehicle that can achieve zero-carbon emission while delivering higher efficiency and ensuring safer energy storage than conventional electric vehicles, thereby providing a more sustainable solution to long-term transportation issues. The other award-winning PolyU project, in the area of “medical devices and materials”, has developed novel Photocrosslinkable nanocomposite materials for bone graft applications, providing a highly efficient solution for bone healing. Prof. Christopher CHAO, Vice President (Research and Innovation) of PolyU congratulated the winning teams and said, “PolyU strives to nurture global scholars through excellence in teaching and learning, research and knowledge transfer. The award-winning technologies showcased at TechConnect will continue to inspire PolyU to develop impactful research and innovations. We are committed to addressing global challenges facing mankind through interdisciplinary research and international collaboration.” Details of the two PolyU award-winning innovations are below: 1. Ammonia Powered Fuel Cell-based Electric Vehicle project, led by Prof. Eric CHENG Ka-Wai, Professor of the Department of Electrical Engineering The ammonia-powered fuel cell based electric vehicle adopted ammonia-to-wheel energy conversion where liquid ammonia stored inside a cylinder is broken down into nitrogen and hydrogen by catalysts to generate electricity, and achieves zero carbon emission. In this project, hydrogen is produced from ammonia on the vehicle for feeding fuel cells. A large storage of hydrogen is not needed as the hydrogen is consumed immediately. There are no hazardous issues from the hydrogen. Hence, it is safer and can be managed more easily. 2. Biomimicking Photocrosslinkable Nanocomposite Bone Grafts project, led by Dr Xin ZHAO, Associate Professor of the Department of Biomedical Engineering Biomimicking Photocrosslinkable Nanocomposite Bone Grafts mirror the structure of natural bone. They can load and release bioactive molecules and activate cell-signaling pathways to simultaneously promote osteogenesis and angiogenesis while providing optimal mechanical support to the injured area in order to expedite the bone healing process. The product can compete in the growing market and serve a huge number of patients who are receiving orthopedic surgeries. The TechConnect conference will be held in Washington, D.C. from 19 to 21 June, 2023. PolyU’s delegation will showcase various innovative projects and meet with technology prospectors with a view to potential collaboration. For details of TechConnect 2023 Innovation Awardees, please visit: https://www.techconnectworld.com/World2023/participate/innovation/awards.html   ***END***

PolyU collaborates with Tianjin Medical University to establish scientific collaborative research platform to identify causes of eye disease and construct screening system

The Hong Kong Polytechnic University (PolyU) has joined with Tianjin Medical University (TMU) to nurture talents, build research teams, conduct scientific research and develop a scientific collaborative research platform in the next five years. The two universities will combine their research strengths to identify causes of eye disease and the possible solutions. They will also adopt artificial intelligence technology and leverage extensive clinical data databases to construct a screening system for eye disease. The partnership brings together the complementary strengths of the world-leading research capability of PolyU’s School of Optometry (with its research impact ranking first in Asia according to Clinical and Experimental Optometry) and TMU’s excellent research and teaching capability, which has enabled it to rank sixth among the 85 medical schools in the country. A signing ceremony was held on the PolyU campus. Prof. Wing-tak WONG, Deputy President and Provost of PolyU, and Prof. YAN Hua, Party Secretary of TMU, signed the memorandum of understanding. Prof. David SHUM, Dean of the Faculty of Health and Social Sciences of PolyU and Prof. YU Ying, Vice President of TMU, signed the strategic cooperation agreement. Prof. Wong said, “TMU is a well-known medical university in China. Its teaching achievements and research projects have won many awards and national support. PolyU is glad to be able to promote strategic cooperation with TMU with a view to enhancing scientific research and academic talent training and jointly contribute to the development of optometry and vision science in the country and the world.” Prof. Yan remarked, “I am very pleased that TMU and PolyU have reached another level of cooperation in academic exchange and research. In line with the principle of “complementary advantages, coordinated development and mutual benefit”, we will enable advanced cooperation in the fields of optometry and vision science, and cultivate first-class students. We aim to produce top-level scientific research outputs and jointly develop an innovative teaching and scientific collaborative research platform.” The PolyU School of Optometry has collaborated with institutions worldwide to build interdisciplinary research teams and promote high-impact vision science research. With strategic cooperation with TMU, both institutions will have increase their competitiveness. Prof. Shum noted, “PolyU’s School of Optometry and TMU jointly establishing a scientific collaborative research platform will help to solicit increased research funding, develop clinical application systems and contribute to enhancing eye-care services in Hong Kong and the country.” The two institutions have carried out academic and research cooperation since 2004. In 2019, the two universities jointly established the “TMU-PolyU Optometry and Vision Science Joint Laboratory”, contributing to basic scientific research and facilitating knowledge transfer outcomes.   ***END***

PolyU scholar honoured with National Award for Excellence in Innovation

Prof. K. F. CHUNG, Director of the Chinese National Engineering Research Centre for Steel Construction (Hong Kong Branch) at The Hong Kong Polytechnic University (PolyU) has been bestowed a Certificate of Merit at the 3rd National Award for Excellence in Innovation. Prof. Chung is the only recipient from Hong Kong this year. Prof. Chung is professor in the Department of Civil and Environmental Engineering at PolyU. As an expert in structural steel engineering, he has contributed to research and application of principal theories in structural steel engineering. This award not only demonstrates PolyU's strength in research and technology development, but also supports Hong Kong’s development into an international innovation hub. Prof. Chung specialises in research into the performance and cost challenges for large steel structures, along with the environmental issue of the high carbon footprint of construction. He has conducted cross-disciplinary research in various areas such as materials, welding, as well as the mechanical properties and structural performance of high-strength steel structures, providing solutions for the Nation’s development of a “dual carbon” strategy in engineering construction. In the field of steel structures internationally, Prof. Chung has made substantial impacts with his development of a series of fundamental theories and key technologies for application in domestic high-strength steel structures. His studies have been the focus of a number of high-level academic papers. Practically, his research outputs have been applied in several major construction projects such as the double-arch steel bridge of the Cross Bay Link in Tseung Kwan O in Hong Kong and the Quarta Ponte Marítima Macau-Taipa. These innovations generate significant economic and social benefits, with significant cost saving in construction. Prof. Christopher CHAO, PolyU Vice President (Research and Innovation), said, “The award is highly encouraging and affirms PolyU’s strong scientific research capabilities. PolyU strives to be an innovative world-class university and will continue to promote research in a wide range of areas, with the goal of playing a significant role in the national scientific research development for supporting innovation and technology applications in China and the world.” The National Award for Excellence in Innovation was jointly organised by the Ministry of Human Resources and Social Security, China Association for Science and Technology, Ministry of Science and Technology, and State-owned Assets Supervision and Administration Commission. The Award aims at recognising outstanding technology scientists and teams who have made significant contributions to frontier research, construction and engineering technology, innovative technology and knowledge transfer, technology entrepreneurship, innovation and social services. The Award is organised every three years, with honours awarded to no more than 300 science and technology talents. ***END***

PolyU and Jinjiang Government to establish joint technology and innovation research institute

The Hong Kong Polytechnic University (PolyU) and the Jinjiang Municipal People’s Government have reached an agreement to establish the PolyU-Jinjiang Technology and Innovation Research Institute, aiming to strengthen and facilitate research collaboration among industries, academia and research organisations in Hong Kong and Jinjiang. Prof. Christopher CHAO, Vice President (Research and Innovation) of PolyU, and Mr WANG Mingyuan, Mayor of Jinjiang, signed the relevant agreement at an event held in the Quanzhou Nanyi National High-tech Zone on 2 June. The research institute will leverage PolyU’s research strengths and achievements to meet Jinjiang’s industrial needs and facilitate the city’s industrial transformation. PolyU and Jinjiang city will partner in various fields such as new textile materials, fashion design, intelligent wearable systems, microelectronics, future food, and public policy. The two parties will also nurture entrepreneurial talents with innovative technological knowledge and a global perspective. Capitalising on PolyU’s research excellence and Jinjiang’s industrial strengths and resources, the collaboration between the two parties will support Jinjiang’s development into a top-notch innovation hub, jointly promote the two-way integration of the industrial chain and the innovation chain, and inject new impetus into the development of local high-tech industries. ***END***

PolyU and Fire Services Department sign MoU to nurture young generations

The Hong Kong Polytechnic University (PolyU) and the Fire Services Department (FSD) signed a Memorandum of Understanding (MoU) today to establish a collaborative partnership in jointly organising a training course on fundamentals of emergency care and critical response by the School of Nursing of PolyU and the Fire and Ambulance Services Academy (FASA). The course will equip students with the skills and knowledge of the application of cardiopulmonary resuscitation (CPR) and automated external defibrillators (AEDs), as well as fire safety measures and emergency evacuation procedures. The aim is to further strengthen the awareness of community emergency preparedness in a bid to enhance the efficiency of life-saving treatments. The School of Nursing at PolyU has been pursuing academic excellence of practical value in nursing and healthcare services, while the FSD has long been formulating and implementing strategies on community emergency preparedness. The collaboration will help the FSD to further promote the “three basic skills on emergency preparedness" (namely Extinguish and Prevent Fire, Self-help and Help Others and Escape and Evacuate) in the community and also foster the culture of "self-help and help others" in the wider community. Witnessed by Prof. David SHUM, Dean of the Faculty of Health and Social Sciences of PolyU, and Mr Andy YEUNG, Director of FSD, the MoU was signed by Prof. Engle Angela CHAN, Interim Head of the School of Nursing of PolyU, and Mr YIU Men-yeung, the Commandant of the FASA. Prof. David Shum said, “We thank FSD for its unwavering support for the training course. The collaborative course will be included as a credit-bearing course in the curriculum of General Studies for all PolyU students in meeting the needs of the community. The course would also enhance students’ vigilance and problem-solving abilities and cultivate a spirit of mutual assistance and care among them.” Mr Andy Yeung said, “We hope the training course would enhance students' competence and confidence in saving patients from cardiac arrest, and strengthen the support for local patients with cardiac arrest to receive timely rescue in the community so as to increase their chances of survival. The MoU also signifies the sustainable co-operation of both sides in providing diversified learning opportunities in different aspects to nurture more outstanding young generations in Hong Kong.” ***END***

PolyU researchers achieve record 19.31% efficiency with organic solar cells

Researchers from The Hong Kong Polytechnic University (PolyU) have achieved a breakthrough power-conversion efficiency (PCE) of 19.31% with organic solar cells (OSCs), also known as polymer solar cells. This remarkable binary OSC efficiency will help enhance applications of these advanced solar energy devices. The PCE, a measure of the power generated from a given solar irradiation, is considered a significant benchmark for the performance of photovoltaics (PVs), or solar panels, in power generation. The improved efficiency of over 19% that was achieved by the PolyU researchers constitutes a record for binary OSCs, which have one donor and one acceptor in the photo-active layer. Led by Prof. LI Gang, Chair Professor of Energy Conversion Technology and Sir Sze-Yuen Chung Endowed Professor in Renewable Energy at PolyU, the research team invented a novel OSC morphology-regulating technique by using 1,3,5-trichlorobenzene as a crystallisation regulator. This new technique boosts OSC efficiency and stability. The team developed a non-monotonic intermediated state manipulation (ISM) strategy to manipulate the bulk-heterojunction (BHJ) OSC morphology and simultaneously optimise the crystallisation dynamics and energy loss of non-fullerene OSCs. Unlike the strategy of using traditional solvent additives, which is based on excessive molecular aggregation in films, the ISM strategy promotes the formation of more ordered molecular stacking and favourable molecular aggregation. As a result, the PCE was considerably increased and the undesirable non-radiative recombination loss was reduced. Notably, non-radiative recombination lowers the light generation efficiency and increases the heat loss. The research team’s findings are described in the study “19.3% Binary Organic Solar Cell and Low Non-Radiative Recombination Enabled by Non-Monotonic Intermediate State Transition” published in Nature Communications . The conversion of solar energy to electricity is an essential technology for achieving a sustainable environment. Although OSCs are promising devices that harness solar energy cost-effectively, their efficiency must be improved if they are to be used widely in practical applications. Prof. Li said, “Challenges in research came from the existing additive-based benchmark morphology control methods, which suffer from non-radiative recombination loss, thus lowering the open-circuit voltage due to excessive aggregation.” The research team took about two years to devise a non-monotonic ISM strategy for increasing the OSC efficiency and lowering the non-radiative recombination loss. The publication of the study promises to galvanise OSC research. Prof. Li said, “The new finding will make OSC research an exciting field, and this will likely create tremendous opportunities in applications like portable electronics and building-integrated PVs.” The new door will open when low cost single-junction OSCs can achieve a PCE of over 20%, along with more stable performance and other unique advantages such as flexibility, transparency, stretchability, low weight and tuneable colour. Prof. Li has been recognised as a Highly Cited Researcher 9 years in a row since 2014, which testifies to his significant impact on global research. His pioneering contributions to research on polymer solar cells since 2005 have brought sustainable influence on printable solar energy development with global recognition. Prof. Li said, “The latest study shows a record low non-radiative recombination loss of 0.168 eV in a binary OSC with a PCE of over 19%. This is a very encouraging result for the long-standing research on OSCs that I have conducted over the past two decades. We have already achieved better OSC efficiency, and this will subsequently help accelerate the applications of solar energy.” ***END***

Dr Ho Kwon Ping Inducted into School of Hotel and Tourism Management Gallery of Honour

The School of Hotel and Tourism Management (SHTM) of The Hong Kong Polytechnic University (PolyU) is privileged to announce that Dr HO Kwon Ping, Founder and Executive Chairman, Banyan Tree Holdings Ltd, was inducted into the SHTM Gallery of Honour on 22 May 2023, the same day he was bestowed the prestigious SHTM Lifetime Achievement Award at a gala dinner held in his honour. At the ceremony, Prof. Wing-tak WONG, Deputy President and Provost of PolyU, said, “Dr Ho is a visionary entrepreneur and innovator in the hospitality industry, a respected industry leader, and a passionate advocate for sustainable tourism. He is a stellar role model for all SHTM students, and, indeed, all hospitality students around the world.” Expressing his heartfelt congratulations to Dr Ho on receiving the honour, Prof. Kaye CHON, SHTM Dean, Chair Professor and Walter and Wendy Kwok Family Foundation Professor in International Hospitality Management, said, “A pioneer and an inspirational role model, Dr Ho’s exemplary accomplishments have not only played an important role in raising the level of the regional and global hospitality business but also helped transform it through a distinctively Asian focus. A firm believer in education, he is an ardent supporter of hospitality and tourism education. Dr Ho is a longstanding partner of the SHTM and a truly deserving recipient of this award.” Dr Ho remarked, “I am deeply honoured and humbled to be conferred the SHTM Lifetime Achievement Award. Ironically, it was long ago, during my tenure as Chairman of the SHTM International Advisory Board that I suggested the creation of the Lifetime Achievement Award, so that we could honour the pioneers of hospitality in Asia. The initial awardees were truly giants of our industry and inspired people of my generation. To join their ranks is truly an honour I could not have possibly envisaged.” “Under the long and visionary leadership of Dean Chon, the SHTM has become clearly the most prestigious tertiary hospitality school in Asia, and among the top few in the world. An entire generation of Asian hospitality leaders owe many of their achievements to the education which Dean Chon and his colleagues provided them,” he continued. Dr Ho Kwon Ping is the Founder and Executive Chairman of Banyan Tree Holdings and Laguna Resorts and Hotels, and Executive Chairman of Thai Wah Public Company. All three family-owned companies are listed in Singapore and Thailand. Dr Ho was the founding Chairman of Singapore Management University and has also chaired Singapore Power and MediaCorp Singapore. He has served on the boards of Standard Chartered Bank, Diageo, Singapore Airlines and GIC. Among various awards, Dr Ho has received the London Business School Entrepreneurship Award; CEO of the Year at the Singapore Corporate Awards; CNBC Travel Business Leader Award; Distinguished Alumnus Award from the National University of Singapore; and Lifetime Achievement Awards from the American Creativity Association, China Hotel Investment Summit and Australia Hotel Investment Summit. Honoured for his contributions and accomplishments in the hotel industry in the Asia Pacific region and globally, Dr Ho is the only two-time recipient of the awards bestowed by the Hotel Investment Conference Asia Pacific – Innovation Award (2003) and Lifetime Achievement Award (2019) – in its 30-year establishment. For his services to the country, he has been decorated with the Meritorious Service Medal and Distinguished Service Order by the Singapore government. Dr Ho has also been conferred honorary doctorates by Johnson & Wales University and PolyU. “The SHTM prides itself as a leading force in world hospitality, and tourism research and education,” said Dean Chon. “Our commitment to excellence is well supported by industry heavyweights and visionaries such as Dr Ho Kwon Ping. With steadfast support from our industry partners, our School is committed to nurturing the bright minds who will become future leaders of this very exciting global industry.” The Gallery of Honour is located in the SHTM lobby. It displays portraits of the outstanding recipients of the Award, individuals who represent the world's most successful hospitality organisations and recognisable brands. The School established this award to honour outstanding personalities who have contributed substantially to the development of hospitality and tourism in Hong Kong, the region and the world, recognising the true leaders who have helped define the global hospitality landscape and advance the industry.   ***END***