National University of Singapore (NUS)


Founded in 1905, the National University of Singapore (NUS) offers a global approach to education, research, and entrepreneurship. NUS has 17 faculties and schools across three campuses. Close to 40,000 students from 100 countries enrich the community with their diverse social and cultural perspectives.

Research: Shaping the Future

NUS takes a holistic approach to research by integrating expertise across the natural and social sciences. Together, we answer the most challenging questions on how to live and work better.

On an island city-state vulnerable to rising sea levels, NUS researchers are driven to find Sustainability and Urban Solutions. Our research informs global policy on coastal defense, urban design, nature-based solutions, food-energy-water nexus, and the development of green energy technologies. In the Anthropocene, our behavioural and decision scientists work to understand and influence the impact of human consumption within cities.

NUS is also dedicated to Materials Research, where materials scientists, chemists, physicists, and engineers work together to unravel the secrets of the physical world and create materials for tomorrow’s technologies. Our researchers harness the principles which govern living matter to develop new functional intelligent materials for applications in everything from artificial neural networks to smart membranes.

We sometimes do the impossible. NUS researchers synthesised the world’s first one-atom-thick amorphous material. The discovery could finally settle a decades-old debate of exactly how atoms are arranged in amorphous solids and accelerate the development of data storage and energy devices.

Our researchers are also enabling people to live longer, higher-quality lives, with revolutions in Healthcare. During the COVID-19 pandemic, Duke-NUS researchers developed the first and only authorised SARS-CoV-2 neutralising antibody test product known as cPass™ SARS-CoV-2 Neutralisation Antibody Test, and the vaccine developed by Duke-NUS in partnership with Arcturus Therapeutics is undergoing human clinical trials globally.

NUS is at the forefront of cancer research, with breaking work in transforming the treatment of leukaemia. The cell-based therapy uses the body’s immune cells that have been altered in the lab to target and kill cancer cells. Our researchers have also developed the world’s first blood test that measures the effectiveness of cancer treatment within 24 hours after treatment initiation.

The interface between material and health sciences led to the creation of electronic skins that enable better prosthetic devices to mimic the human sense of touch, sense nearby objects without touching, and repair itself when damaged.

Underpinning our research is our respect and recognition for the rising role of technology. Within the NUS Smart Nation research cluster, computer scientists, engineers and social scientists collaborate to build resilience in the systems we rely on daily, by tackling issues of cybersecurity, logistics and operations, risk management, financial systems, and artificial intelligence-based technologies. NUS research on quantum key distribution has led to an increase in the long-term security of communication networks.

Our curiosity infuses the 150-hectare NUS campus, which serves as a living lab for the development and test-bedding of smart technologies, such as 5G network-empowered innovation in virtual reality, and district heating and cooling networks for energy-efficient cities. Our research places artificial intelligence and high technology at the service of society’s greatest needs and strives to make life ever more extraordinary.

NUS retains sole responsibility for content © 2021 National University of Singapore (NUS) .

1 July 2020 - 30 June 2021

Region: Global
Subject/journal group: All

The table to the right includes counts of all research outputs for National University of Singapore (NUS) published between 1 July 2020 - 30 June 2021 which are tracked by the Nature Index.

Hover over the donut graph to view the FC output for each subject. Below, the same research outputs are grouped by subject. Click on the subject to drill-down into a list of articles organized by journal, and then by title.

Note: Articles may be assigned to more than one subject area.

Count Share
846 293.52

Outputs by subject (Share)

Subject Count Share
Earth & Environmental Sciences 61 21.71
1 0.18
24 6.74
Improved NOx Reduction over Phosphate-Modified Fe2O3/TiO2 Catalysts Via Tailoring Reaction Paths by In Situ Creating Alkali-Poisoning Sites
Greenhouse Gas Emission Mitigation Pathways for Urban Passenger Land Transport under Ambitious Climate Targets
Nanofiltration-Inspired Janus Membranes with Simultaneous Wetting and Fouling Resistance for Membrane Distillation
Noble Metal-Free FeOOH/Li0.1WO3 Core–Shell Nanorods for Selective Oxidation of Methane to Methanol with Visible–NIR Light
Developing Surrogate Markers for Predicting Antibiotic Resistance “Hot Spots” in Rivers Where Limited Data Are Available
Selective Capacitive Removal of Heavy Metal Ions from Wastewater over Lewis Base Sites of S-Doped Fe–N–C Cathodes via an Electro-Adsorption Process
Potential Role of Methanogens in Microbial Reductive Dechlorination of Organic Chlorinated Pollutants In Situ
Capacitive Removal of Heavy Metal Ions from Wastewater via an Electro-Adsorption and Electro-Reaction Coupling Process
Electro-Fenton beyond the Degradation of Organics: Treatment of Thiosalts in Contaminated Mine Water
Impact of Cognitive Tasks on CO2 and Isoprene Emissions from Humans
Selective Capacitive Removal of Pb2+ from Wastewater over Redox-Active Electrodes
Anaerobic Oxidation of Methane Coupled with Dissimilatory Nitrate Reduction to Ammonium Fuels Anaerobic Ammonium Oxidation
Macropatterning of Microcrumpled Nanofiltration Membranes by Spacer Imprinting for Low-Scaling Desalination
Global Phosphorus Losses from Croplands under Future Precipitation Scenarios
SO2-Tolerant NOx Reduction by Marvelously Suppressing SO2 Adsorption over FeδCe1−δVO4 Catalysts
Alkali-Resistant NOx Reduction over SCR Catalysts via Boosting NH3 Adsorption Rates by In Situ Constructing the Sacrificed Sites
Effect of Relative Humidity on Secondary Brown Carbon Formation in Aqueous Droplets
Can Composite Janus Membranes with an Ultrathin Dense Hydrophilic Layer Resist Wetting in Membrane Distillation?
Self-Protected CeO2–SnO2@SO42–/TiO2 Catalysts with Extraordinary Resistance to Alkali and Heavy Metals for NOx Reduction
Insights into Ammonia Adaptation and Methanogenic Precursor Oxidation by Genome-Centric Analysis
Multigenerational Impacts of Benzo[a]pyrene on Bone Modeling and Remodeling in Medaka (Oryzias latipes)
Light Absorbing Properties of Primary and Secondary Brown Carbon in a Tropical Urban Environment
Modified Poly(acrylic acid)-Based Hydrogels for Enhanced Mainstream Removal of Ammonium from Domestic Wastewater
Boosting Toluene Combustion by Engineering Co–O Strength in Cobalt Oxide Catalysts
1 0.10
2 0.45
2 1.07
1 0.02
2 1.06
6 1.61
1 0.03
1 0.06
2 0.23
18 10.17
Physical Sciences 347 130.03
Chemistry 356 137.27
Life Sciences 250 59.76

Highlight of the month

Mangroves could benefit from blue carbon credits

© Marie Cristabern Joyce Villamor/EyeEm/Getty Images

© Marie Cristabern Joyce Villamor/EyeEm/Getty Images

Carbon financing could protect around a fifth of global mangrove forests.

Blue-carbon schemes pay countries to protect their coastal environments that store significant amounts of carbon. Yet efforts to protect mangroves, one of the most carbon-dense vegetated ecosystems worldwide, have been limited.

Now, researchers at the National University of Singapore have mapped global mangroves and identified roughly 20% of this vital habitat that could be protected from deforestation by blue carbon credits.

The team assessed the profitability of such projects if carbon cost US$5 per tonne, and found that nearly 10% of mangroves could be sustainably protected for three decades.

Blue carbon credits could help several tropical coastal countries move towards their climate change goals, but further interventions are needed to protect the majority of mangroves from future threats.

Supported content

  1. Current Biology 31, 1737–1743 (2021). doi: 10.1016/j.cub.2021.01.070

View the article on the Nature Index

See more research highlights from National University of Singapore (NUS)

More research highlights from National University of Singapore (NUS)

1 July 2020 - 30 June 2021

International vs. domestic collaboration by Share

  • 21.73% Domestic
  • 78.27% International

Note: Hover over the graph to view the percentage of collaboration.

Note: Collaboration is determined by the fractional count (Share), which is listed in parentheses.

Affiliated joint institutions and consortia

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