A new study conducted by researchers from the Cancer Science Institute of Singapore (CSI Singapore) at the National University of Singapore has uncovered a key mechanism behind lenalidomide resistance in multiple myeloma (MM), offering new insights into potential strategies for improving treatment outcomes and overcoming drug resistance.
The "PV Doctor", launched on 2 April 2025, is a spin-off from the Solar Energy Research Institute of Singapore (SERIS) at the National University of Singapore (NUS). It commercialises 15 years of in-depth research on PV system performance in different climates and on maximising energy yield – be it for well-operating (“healthy”) or under-performing (“sick”) installations.
A team of researchers from the National University of Singapore (NUS) has developed a method to fabricate personalised gingival (gum) tissue grafts using an innovative combination of 3D bioprinting and artificial intelligence (AI).
The team led by Associate Professor Mario Lanza from the Department of Materials Science and Engineering in the College of Design and Engineering at the National University of Singapore, has just revolutionised the field of neuromorphic computing by inventing a new super-efficient computing cell that can mimic the behaviour of both electronic neurons and synapses.
Professor Ariando and Dr Stephen Lin Er Chow from the National University of Singapore (NUS) Department of Physics have designed and synthesised a groundbreaking new material—a copper-free superconducting oxide—capable of superconducting at approximately 40 Kelvin (K), or about minus 233 degrees Celsius (deg C), under ambient pressure.
Diabetic wounds often lead to severe complications that can result in amputations. These chronic and non-healing wounds are marked by persistent inflammation, affecting more than six per cent of the global population. In Singapore, there are about four lower limb amputations daily due to non-healing diabetic wounds. A study focusing on diabetic wounds in Singapore estimated that the gross amputation-related healthcare cost per patient was S$23,000 in 2017.
A new national programme that aims to position Singapore at the forefront of advancements in RNA science and applications was officially launched today. This new initiative – named National Initiative for RNA Biology and Its Applications (NIRBA) – is supported by the National Research Foundation (NRF) with total funding of S$130 million (US$97 million) over seven years. NIRBA will engage scientists and clinicians from leading institutions like the National University of Singapore (NUS), Nanyang Technological University, Singapore (NTU Singapore), Agency for Science, Technology and Research (A*STAR), and Duke-NUS Medical School.
AutoCodeRover, an autonomous AI agent platform for software development which is a spin-off technology of the National University of Singapore (NUS), has been acquired by Sonar, a global leader in code quality and code security solutions.
On Darwin Day, 12 February 2025, the Darwin Online project at the National University of Singapore (NUS) launches the largest collection of caricatures of Charles Darwin and evolution in history.
Conserving and restoring Southeast Asia’s carbon-rich peatlands and mangroves could mitigate more than 50 per cent of the region’s land-use carbon emissions, according to a new international study published in Nature Communications.
In a breakthrough for the advanced study of gut health, NUS scientists have developed a 3D microscopic version of the human intestines condensed into a small chip about half the size of a five-cent coin. This new cell culturing platform, known as the Gut-Microbiome on a chip (GMoC), provides a realistic in vitro microgut model that allows researchers to examine the interactions of gut microbes and their collective impact on gut health.
NUS biologists conduct the first comprehensive population study of all three Asian horseshoe crab species, mapping their population distribution, evolutionary histories and vulnerabilities to climate change to propose customised conservation strategies.
A team of researchers from NUS has developed a novel method to enhance the precision of cancer treatment using gold nanoparticles tagged with DNA barcodes.Led by Assistant Professor Andy Tay from the Department of Biomedical Engineering in the College of Design and Engineering and Institute of Health Innovation & Technology at NUS, the study demonstrates how gold nanoparticles of specific shapes, such as triangles, excel in delivering therapeutic nucleic acids and heating tumour cells during photothermal therapy.
Prof Kawaguchi’s paper titled “Stochastic Taylor Derivative Estimator: Efficient Amortization for Arbitrary Differential Operators” (STDE) addresses a critical challenge in AI and computational mathematics — efficient computation of derivatives for complex systems.
Researchers at the National University of Singapore (NUS) have developed a non-invasive method to improve the effectiveness of chemotherapy while reducing its harmful side effects.
Singapore has been ranked among the world’s top 10 nations - and first in Asia – for its readiness to address the challenges and leverage the opportunities of an ageing population, according to a recent study conducted by researchers from the National University of Singapore (NUS) and Columbia University.
Researchers from the National University of Singapore have developed a novel aerogel designed to enhance the efficiency of atmospheric water harvesting. This development offers a practical solution to the pressing issue of freshwater scarcity, particularly in arid regions. The advanced aerogel is capable of absorbing moisture from the air up to about 5.5 times its weight, maintaining its performance across a wide range of humidity levels, and effective even in conditions as low as 20 per cent relative humidity, making it suitable for diverse environments. Demonstrating the aerogel’s applicability, the research team has integrated it into a solar-driven, autonomous atmospheric water generator that efficiently collects and releases freshwater without requiring external energy sources.
A team of interdisciplinary scientists from the Department of Materials Science and Engineering under the College of Design and Engineering at NUS has developed flexible fibres with self-healing, light-emitting and magnetic properties. The Scalable Hydrogel-clad Ionotronic Nickel-core Electroluminescent (SHINE) fibre is bendable, emits highly visible light, and can automatically repair itself after being cut, regaining nearly 100 per cent of its original brightness. In addition, the fibre can be powered wirelessly and manipulated physically using magnetic forces.
The National University of Singapore (NUS) will be taking a significant leap forward in synthetic biology, leveraging its deep expertise and cutting-edge innovations to usher a new paradigm for green manufacturing, driven by this rapidly evolving field. Over the next six years, the University plans to dedicate substantial resources and efforts – estimated to value around S$120 million (US$90.6 million) - to firmly establish synthetic biology as a foundational pillar of NUS’ innovation ecosystem, driving transformative benefits for Singapore across multiple sectors.
Applied Materials South East Asia Pte. Ltd. and the National University of Singapore (NUS) are furthering their collaboration to bring advanced semiconductor research capabilities and talent development opportunities to Singapore.
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