Lingnan University has entered the Times Higher Education (THE) World University Rankings 2026. In the latest published results, Lingnan ranked among the world's top 301-350 out of 2,191 universities from 115 countries or territories, delivering a notable performance across several indicators. These include an impressive 47th place in International Outlook, recognising Lingnan's achievement in fostering international diversity and collaborative research on a global scale.
Prof S. Joe Qin, President and Wai Kee Kau Chair Professor of Data Science at Lingnan University, welcomed the results, saying “Lingnan has made remarkable progress in research output and citation impact in recent years. To further strengthen our capabilities in research and knowledge transfer, we are bringing in world-class scholars through the Lingnan-60 Global Talent Recruitment Campaign and the Lingnan University Institute for Advanced Study (LUIAS), creating a vibrant hub for nurturing the next generation of research talent. As of the end of September 2025, we have recruited 31 leading scholars through Lingnan-60 across emerging fields, including artificial intelligence (AI), data science, advanced materials, and carbon neutrality. This reinforces our commitment to becoming a leading research-oriented liberal arts university comprehensive in arts and sciences in the digital era. We are confident that our achievements will be increasingly reflected in future rankings."
The THE World University Rankings are based on five core pillars of evaluation: teaching, research environment, research quality, international outlook, and industry.
Earlier this year, Lingnan University gained global recognition by ranking No. 1 worldwide in SDG 4: Quality Education in the THE Impact Rankings 2025. This notable achievement marks the first time a Hong Kong higher education institution has topped the global league table in this category, affirming Lingnan's internationally recognised contributions to quality education and its commitment to advancing the United Nations Sustainable Development Goals (SDGs). In addition, 43 Lingnan scholars are featured in the 2025 edition of the World's Top 2% Scientists list, an increase of almost 50% from last year's 29. Among them, 19 scholars rank in the global top 100 in their respective disciplines, underscoring the international recognition of Lingnan's research excellence and rising international impact.
Lingnan University congratulates Hong Kong SAR astronaut Lai Ka-ying who has been chosen for the nation’s next space mission, where she will probably operate the Multi-Spectral Imaging Carbon Observatory (MUSICO), a space-based research instrument led by the Hong Kong University of Science and Technology (HKUST). Prof Li Jia, Director of the Lingnan University Shenzhen Research Institute (LUSZRI), and Associate Professor (Presidential Early Career Scholar) of the Wu Jieh Yee School of Interdisciplinary Studies (WJYSIS) at Lingnan University, together with her research team, contributed key data from a carbon emissions source database for the project, which will be used to compare greenhouse gas data including carbon dioxide and methane emission sources observed by MUSICO, helping researchers identify emission intensity and distribution patterns of power and industrial facilities across different regions more accurately, thereby providing robust scientific support for China’s carbon-peaking and carbon-neutrality goals.
Prof Li said that currently many satellite monitoring systems worldwide focus mainly on greenhouse gas emissions at the regional level, and identifying carbon emissions from a single large stationary emission source from space remains challenging as relying on the high-sensitivity MUSICO instrument also depends greatly on long-term, ground-based carbon emissions data for comparison.
Prof Li Jia (right), Prof Su Hui (middle), and Dr Wang Fan (left) at the Wenchang Spacecraft Launch Site.
Prof Li said “Our database covers more than half of China’s carbon dioxide emission sources, and records emission volumes from different regions and industrial facilities. It is resolved down to the level of total emissions per square kilometre, with precise geographic coordinates, and functions much like a map and a navigation system, helping MUSICO identify the specific locations, intensities, and operational patterns of emission sources in space. This enables the instrument to observe the large-scale distribution of greenhouse gas concentrations, and also to analyse emissions from individual factories or facilities with greater precision, thereby increasing the accuracy and scientific value of space-based observation data.”
Prof Li continued “As an international financial centre, the Hong Kong SAR is well positioned to use Lingnan’s empirical data to advance the development of the green economy. In future, the database may be applied to carbon emissions verification, emissions reduction assessment, and urban low-carbon management, providing scientific support for low-carbon transformation in the Greater Bay Area and across China.”
For several years now, Prof Li Jia’s team has carried out extensive research on industrial carbon emissions in China, and participated in core national carbon neutrality projects, compiling inventories covering major high-emission industries, such as power generation, cement, steel, chemicals and electrolytic aluminium.
Over the past 20 years, Prof Li’s team has carried out continuous research on carbon emissions from the power and industrial sectors in China and Southeast Asian countries. The team has participated in and led carbon capture and storage planning projects in six Asian countries, and developed emissions inventories covering China’s major high-emission industries, including power generation, cement, steel, chemicals, and electrolytic aluminium. This is consistent with the analysis of individual emission sources such as ground-based power plants and oilfields, and helps verify whether observed measurements reflect normal fluctuations or abnormal emissions.
Between 2022 and 2025, Prof Li’s team collaborated with Tsinghua University and the Chinese Academy of Environmental Planning (CAEP) under the Ministry of Ecology and Environment, and took part in a first-batch key research project of the National Natural Science Foundation of China on carbon peaking and carbon neutrality, which expanded the database to cover additional major emission sectors.
From left: Hong Kong SAR astronaut Lai Ka-ying, Prof Li Jia.
Prof Li Jia said that the opportunity to participate in space monitoring-related scientific research collaboration on behalf of Lingnan University was made possible by WJYSIS’ continued encouragement of cross-disciplinary integration, fostering collaborative research in environmental science, data analytics, and artificial intelligence; also, while the Chinese Mainland has taken a leading position in large-scale carbon capture and emissions reduction technologies, the Hong Kong SAR has many advantages in international academic networks and well-established research collaboration platforms, which promote scientific exchange, research related to sustainable development, and collaboration between China and the international community.
Council members of Lingnan University visit the Lingnan University Shenzhen Research Institute (LUSZRI).
Prof S. Joe Qin, President and Wai Kee Kau Chair Professor of Data Science at Lingnan University, said that in recent years, Lingnan University has actively promoted its Liberal Arts + Technology development strategy, encouraging faculty and students to conduct interdisciplinary research that addresses real-world issues. Lingnan researchers’ involvement in national space and carbon monitoring projects shows the University’s strong foundation in inter-university and interdisciplinary collaboration, and highlights its academic contributions to public development in environmental science, data analytics, and low-carbon research.
The MUSICO research project is co-led by Prof Su Hui, Chair Professor of the Department of Civil and Environmental Engineering and Global STEM Professor at HKUST, and Prof Zhang Limin, Chair Professor and Head of the same department. Prof Zhai Chengxing, Associate Professor of the Division of Emerging Interdisciplinary Areas is the mission system engineer, and other team members are Senior Scientific Officer Dr Rong Pingping, Assistant Professor Zhang Jize, and Associate Professor Wang Zhe from HKUST’s Department of Civil and Environmental Engineering; Professor Ning Zhi, Associate Professors Shi Xiaoming, and Gu Dasa from the Division of Environment and Sustainability; Associate Professor Ma Xiaojuan from the Department of Computer Science and Engineering; Professor Zhu Pengyu from the Division of Public Policy; Professor Gao Meng from Hong Kong Baptist University; and Associate Professor Li Jia from Lingnan University.
