Pioneering Green Technology Solutions for a Sustainable Singapore
pioneering-green-technology-solutions-for-a-sustainable-singapore
TO943393
Singapore's pioneering green technology is revolutionising urban sustainability by integrating advanced eco-friendly solutions into its infrastructure. This innovative approach significantly reduces carbon emissions and enhances energy efficiency, primarily benefiting the urban planning and development sector. Discover how Singapore is setting a global benchmark in sustainable urban living.
Healthcare Data Science Platform, Built to Prioritise Patient Privacy and Data Security
healthcare-data-science-platform-built-to-prioritise-patient-privacy-and-data-security
TO175332
Reimagining how healthcare data is analyzed, this platform enables advanced data science without moving a single byte of patient data. Designed from the ground up to comply with global privacy regulations, it allows hospitals and research institutions to develop powerful AI models using real-world clinical data—while keeping that data entirely on-site under governance.Powered by proprietary federated learning and a modular AI/ML development toolkit, the platform solves one of healthcare’s biggest bottlenecks: secure access to data for innovation. With seamless integration into existing IT systems and end-to-end compliance with GDPR and HIPAA, this is the infrastructure for the future of privacy-first, multi-institutional healthcare data analytics and AI/ML.The technology owner is actively seeking collaboration with healthcare providers, research institutions, clinical research organizations, and data-centric health-tech companies eager to scale innovation—without compromising privacy or control.
Healthcare, Infocomm
Pioneering Green Tech Solutions in Singapore: Sustainable Innovations for a Greener Future
pioneering-green-tech-solutions-in-singapore-sustainable-innovations-for-a-greener-future
TO856842
Green technology in Singapore represents a pioneering approach to sustainable urban development, integrating cutting-edge innovations to reduce carbon footprints and enhance energy efficiency. With a focus on renewable energy solutions and eco-friendly infrastructure, it positions Singapore as a leader in creating smart, sustainable cities. Discover how these advancements are shaping the future of urban living.
Concrete Armour for Coastal Protection Structures
concrete-armour-for-coastal-protection-structures
TO175464
Coastal regions are increasingly vulnerable to shoreline erosion and infrastructure damage caused by rising sea levels, stronger waves, and frequent storm surges. Conventional concrete breakwater designs often struggle under such harsh marine conditions due to inadequate interlocking, limited adaptability to diverse coastal profiles, and high maintenance demands.This technology introduces geopolymer-based, geometrically optimized concrete armour units designed to enhance the stability, durability, and sustainability of coastal protection structures. By using fly ash–based geopolymer concrete, the technology not only reduces carbon emissions but also delivers superior interlocking performance and long-term resilience against dynamic wave forces, making it a sustainable solution for modern coastal defense.The technology owner is seeking R&D collaborations with coastal engineering firms, infrastructure developers, and government agencies to co-develop, testbed, and commercialise this geopolymer-based armour unit technology, accelerating its deployment in sustainable coastal protection projects
Sustainability, Materials, Environment & Clean Tech
Energy-Saving Additive for Water-Based Heat Transfer Systems
energy-saving-additive-for-water-based-heat-transfer-systems
TO841305
This innovative energy-saving additive enhances heat transfer efficiency in closed-loop water-based systems by reducing water surface tension, improving fluid-surface contact, and increasing thermal conduction. Ideal for HVAC, boilers, and heat pumps, it offers significant energy savings and system responsiveness with minimal infrastructure changes, making it attractive for large facilities like hotels and data centres.
Transform Fried Food Scraps into Biodiesel: Sustainable Waste Solution
transform-fried-food-scraps-into-biodiesel-sustainable-waste-solution
TO242124
This innovative technology converts fried food scraps into high-value biodiesel raw material, addressing environmental concerns linked to waste disposal and pollution. By efficiently transforming waste into renewable energy, it offers a sustainable solution for the renewable energy sector. The process enhances resource recovery and reduces reliance on fossil fuels, presenting a compelling opportunity for collaboration with waste management and biodiesel production companies.
On-site Molecular Diagnostic Platform for Livestock Disease Detection
on-site-molecular-diagnostic-platform-for-livestock-disease-detection
TO175484
This on-site molecular diagnostic platform enables rapid detection of pathogens in livestock, empowering farmers to identify infections early, before visible symptoms appear. Designed for field conditions, the kits are robust, cost-effective, and user-friendly. By enabling proactive disease surveillance at the farm level, the technology supports timely intervention, reduces antibiotic dependence, and enhances profitability through improved livestock health and reduced mortality losses. This technology combines a DNA extraction method that helps to preserve sample DNA and inactivate pathogens, together with lyophilised reaction beads. The system produces qualitative and semi-quantitative results and is compatible with downstream analyses such as qPCR and sequencing. The technology provider is seeking partnerships across the aquaculture and livestock value chain including research institutions, industry players, and government agencies to scale on-site disease detection and promote sustainable, biosecure food production globally.
Life Sciences, AgriTech
Real-Time Monitoring Fall Protection System for Work-At-Height Safety
real-time-monitoring-fall-protection-system-for-work-at-height-safety
TO175437
In Singapore, where workplace safety is of paramount concern, the Ministry of Manpower (MOM) have always been actively monitoring with compliance and enforcement to meet their objective of less than one workplace fatality per 100,000 workers by 2028. Unfortunately, workplace deaths have been steadily increasing, with falling from height being the highest cause of incident within the construction industry in 2024 with inadequate Workplace Safety and Health (WSH) management, non-compliance and unsafe behaviour being common root causes. With potential loss of man-day and even life, companies are actively looking for solutions which ensure workers working-at-height are safe and compliant.The technology owner has developed an innovative safety solution designed to enhance safety for workers operating at heights. It provides relevant stakeholders with real-time information about the usage of safety harnesses, as well as the precise or general positioning of the worker before, during and after work-at-height (WAH) activities. This capability enables effective monitoring of compliance of workers in high-risk areas and facilitates the implementation of follow-up training and safety improvements.The technology solution has been successfully tested and deployed in various construction sites in Hong Kong. The owner is currently looking for industrial players, such as contractors, and facility management teams, who will find this solution valuable for reinforcing compliance and reducing WAH risk across various operations.
Electronics, Infocomm
Smart Fibre Sleep Monitor: Contact-Free Vital Signs & Apnea Detection
smart-fibre-sleep-monitor-contact-free-vital-signs-apnea-detection
TO336786
Smart Fibre Sleep Monitoring offers a groundbreaking approach to sleep health by enabling contact-free detection of vital signs and sleep apnoea. This innovative technology integrates seamlessly into bedding, providing users with a non-intrusive solution to monitor their sleep quality. Ideal for both personal and clinical settings, it promises improved sleep health management and early detection of sleep disorders, inviting further exploration into its potential benefits.
Durable Filtration Membranes and Systems for Challenging Wastewater
durable-filtration-membranes-and-systems-for-challenging-wastewater
TO175394
Industrial wastewater treatment faces persistent hurdles, especially in oil and gas, petrochemical, metal finishing, and food processing industries. Conventional membranes suffer from rapid fouling when exposed to high oil and grease loads, degrade under extreme chemical cleaning, and struggle to maintain flux recovery. This often results in frequent downtime, costly replacements, and an inability to consistently meet discharge compliance.The technology is a next-generation ultrafiltration (UF) membrane engineered for highly aggressive industrial environments. Built from military-grade, chemical-resistant polymers, the hollow fiber design achieves high flux with low fouling, even under extreme conditions such as pH 1–14, temperatures up to 80 °C, high salinity, and oily streams containing up to 5% oil. For advanced industrial wastewater treatment applications, the system ensures reliable and consistent performance across challenging effluent streams.Unlike conventional polymer membranes, this solution maintains long-term performance through repeated high-caustic (pH 14+) and chlorine (10,000+ ppm) cleanings. It consistently delivers over 95% flux recovery after aggressive NaOH and NaOCl cleaning, preventing irreversible fouling and reducing replacement frequency. Optimized porosity and geometry allow the membranes to handle heavy oil loads while validated cleaning protocols ensure rapid regeneration and stable long-term operation.The proprietary polymer chemistry and crosslinking techniques that form the basis of the membrane provide a competitive edge and ensure consistent performance.The technology owner seeks collaboration with Institutes of Higher Learning, large industrial players with ongoing water reuse, wastewater, or zero-liquid-discharge initiatives, and engineering, and construction firms with opportunities for R&D collaboration, test-bedding, and licensing.
AI-Optimised Solar Systems & Waste-to-Energy Solutions for Sustainable Singapore
ai-optimised-solar-systems-waste-to-energy-solutions-for-sustainable-singapore-1
TO750390
Explore Singapore's green technology innovations with AI-assisted solar rooftop systems, smart waste-to-energy microplants, and a carbon footprint analytics platform for SMEs. These solutions enhance energy generation, reduce emissions, and aid sustainability efforts, particularly benefiting commercial buildings, urban environments, and small enterprises. Discover how these technologies align with the Singapore Green Plan 2030 to drive sustainable progress.
Thin-Film Solar Glass for Building-Integrated Photovoltaics
thin-film-solar-glass-for-building-integrated-photovoltaics
TO175452
Conventional photovoltaic (PV) panels face key limitations in efficiency, design flexibility, and sustainability. Though widely adopted, crystalline silicon modules are heavy, visually intrusive, and perform poorly under shading or high-temperature conditions. Their installation is typically restricted to rooftops, limiting energy yield in space-constrained urban environments. Moreover, silicon-based PV manufacturing involves energy-intensive processes and carbon emissions that run counter to the goals of green construction.This thin-film cadmium telluride (CdTe) solar glass technology overcomes the limitations of conventional photovoltaics by integrating photovoltaic elements into glass for building-integrated photovoltaics (BIPV) applications. It effectively addresses high energy consumption and carbon emissions in modern buildings while maintaining architectural aesthetics. Achieving a conversion efficiency of 22.1% under laboratory conditions, the CdTe solar glass delivers outstanding low-light and temperature performance, ensuring reliable energy generation across diverse environments. The design is highly customizable for seamless integration with glass, stone, or aluminum façades—supporting applications such as curtain walls, sunshades, skylights, and other façade elements. By generating clean energy without compromising transparency or design versatility, the technology offers a practical pathway toward energy-efficient, low-carbon urban development, helping stakeholders meet green building and ESG objectives.The technology owner is seeking collaboration with Singapore-based building material manufacturers, glass processors and architectural firms to jointly advance the integration of sustainable energy technologies into urban infrastructure, supporting Singapore’s transition toward low-carbon, energy-efficient buildings.
Materials, Energy, Chemicals, Sustainability
Affordable Green Bio-Methanol from Biogas/Biomass
affordable-green-bio-methanol-from-biogasbiomass-1
TO175361
With the maritime industry responsible for 2–3% of global CO₂ emissions, the need for practical, safe, and affordable low-carbon fuel solutions has become increasingly urgent. While alternatives like hydrogen and ammonia show potential, they face major barriers in safety, cost, and infrastructure—particularly for long-haul shipping routes. Bio-methanol is considered a strong alternative fuel for the maritime sector, offering a practical, scalable, and safer pathway for transitioning to low-carbon marine fuels.The technology on offer features a proprietary catalyst that simplifies the bio-methanol production process, enabling up to 50% reduction in capital and operating expenses compared to conventional methods. This approach allows renewable methanol to be produced at costs approaching that of fossil-based methanol or diesel, especially when normalized by energy density and inclusive of carbon pricing. The process also supports circular economy goals by valorising waste into energy, further enhancing its environmental and societal impact.By enabling affordable, scalable production of renewable methanol, this technology fills a critical gap in the clean energy supply chain, facilitating a just and profitable transition to greener shipping. It also directly addresses the maritime industry’s growing demand for sustainable fuels that align with international climate targets, such as the International Maritime Organization’s (IMO) net-zero emissions goal.The technology owner is seeking for co-development and test-bedding opportunities with end-users in the maritime sector i.e., shipping companies, fuel distributors, port operators, and clean energy developers and waste biomass producers i.e., palm oil, bagasse, animal manures, municipal sewage waste.
Energy, Chemicals, Sustainability
Smart Fibre Sleep Monitoring: Contact-Free Vital Signs & Apnea Detection
smart-fibre-sleep-monitoring-contact-free-vital-signs-apnea-detection
TO382045
This innovative technology employs micro-bending loss enhanced optical fibre sensors and cloud-based analytics to provide non-intrusive, continuous monitoring of vital signs, addressing sleep apnea and other health conditions. With 95% specificity for OSAHS diagnosis and scalable cloud architecture, it is ideal for healthcare, elder care, and disability facilities, reducing staff workload and enhancing patient safety. Explore how this solution revolutionises patient monitoring with zero patient contact and real-time insights.
A Cmos Complementary Current-reuse Low-noise Amplifier With Passive Amplification
a-cmos-complementary-current-reuse-low-noise-amplifier-with-passive-amplification
TO58391
Due to the need for reliable, continuous, and cost-effective health monitoring in hospitals and homes in recent years, both implantable and wearable biomedical sensor devices in Wireless Body Area Networks (WBAN) must meet ultra-low-power consumption for prolonged battery life. Since the wireless communication part of the sensor device is usually the most power-hungry, it is important to reduce both the current and the supply voltage of the transceiver and its building blocks to minimize the power consumption without compromising the performance.
Eco-Friendly Biodiesel from Fried Food Waste: Transforming Scraps into Renewable Energy
eco-friendly-biodiesel-from-fried-food-waste-transforming-scraps-into-renewable-energy
TO877269
This innovative technology transforms fried food scraps into high-value biodiesel raw material, addressing environmental concerns and reducing waste disposal costs. By efficiently converting waste into renewable energy, it supports the renewable energy sector and waste management industries. With significant yield improvements and superior biodiesel quality, it offers a compelling solution for sustainable biofuel production.
AI-Powered Global Maritime Freight Forecasting Platform with 90% Accuracy
ai-powered-global-maritime-freight-forecasting-platform-with-90-accuracy
TO923006
The Maritime Freight Rate Forecasting Platform is a pioneering AI-driven tool tailored for the shipping industry, offering 90% accurate predictions across 160+ global routes. By analysing historical and real-time data, it enables proactive, data-driven decisions for carriers and shippers, enhancing cost management and reducing risk in a volatile market. Discover how this cutting-edge technology transforms freight rate forecasting into a strategic advantage.
AI-Powered Autonomous Vision Inspection: Transforming Manufacturing Quality Control
ai-powered-autonomous-vision-inspection-transforming-manufacturing-quality-control
TO757711
Introducing an AI-powered autonomous vision inspection technology that revolutionises end-of-line manufacturing checks with rapid deployment and minimal training data. This adaptable solution replaces manual inspections, significantly reducing errors and enhancing production efficiency across industries such as automotive and defence. Discover how this cutting-edge innovation can elevate your manufacturing quality standards while lowering operational costs.
AI Maritime Freight Forecasting: 90% Accuracy & 160+ Routes for Cost Efficiency
ai-maritime-freight-forecasting-90-accuracy-160-routes-for-cost-efficiency
TO633911
AI Maritime Freight Forecasting offers a groundbreaking solution with 90% accuracy across over 160 routes, significantly enhancing cost efficiency and risk management in the maritime shipping sector. Seamlessly integrating via API, this technology continuously learns, positioning itself as a vital tool for the sustainable agrifood and energy industries.
Innovative Dubai Crude Oil Technology: Enhance Efficiency & Maximise Profits
innovative-dubai-crude-oil-technology-enhance-efficiency-maximise-profits
TO780704
The Dubai Crude Oil Technology revolutionises the extraction and processing of Dubai crude, enhancing efficiency and reducing environmental impact. By streamlining operations, it offers significant cost savings and improved sustainability. Primarily applied in the oil and gas sector, this cutting-edge innovation captivates industry leaders looking to optimise their operations and advance eco-friendly practices.
Low-Temp Synthesis of High-Purity Li₂S for Next-Gen Solid-State Batteries
low-temp-synthesis-of-high-purity-lis-for-next-gen-solid-state-batteries
TO753200
This novel low-temperature synthesis process for high-purity lithium sulphide (Li₂S) enables efficient mass production of advanced solid electrolytes for all-solid-state lithium-ion batteries. By eliminating post-annealing and complex purification, it reduces costs and enhances ionic conductivity and stability. This innovation is ideal for next-gen energy storage solutions in electric vehicles, portable electronics, and grid storage.
AI Maritime Freight Forecasting: 90% Accuracy Across 160+ Routes for Cost Efficiency
ai-maritime-freight-forecasting-90-accuracy-across-160-routes-for-cost-efficiency
TO105960
The AI-Powered Global Maritime Freight Forecasting Platform offers 90% accuracy in predicting freight rates across 160+ routes, enhancing budgeting and reducing cost overruns by up to 30%. With seamless API integration and continuous learning capabilities, it streamlines operations and bolsters risk management in the maritime sector, promising precise insights in a volatile market. Discover how this cutting-edge technology can revolutionise your freight strategy.
Cricket-Based Asian-Style Crackers
cricket-based-asian-style-crackers
TO175321
The world faces a mounting challenge in feeding a growing population projected to reach 9.7 billion by 2050 (United Nations). This increase drives demand for high-quality protein, but traditional sources like livestock, poultry, and fish are resource-intensive (e.g., water, land, feed), environmentally harmful (GHG emissions, deforestation) and increasingly unsustainable. With high efficiency, low emissions, and strong nutritional value, insect protein offers a sustainable alternative to conventional meat sources—especially relevant in urbanized, climate-conscious societies seeking innovation in food systems like Singapore.Crickets possess subtle flavours reminiscent of crustaceans, making them an excellent addition to our fried crackers. This familiar taste profile is particularly advantageous in Southeast Asia, where prawn crackers (Keropok) are a beloved snack. By leveraging this familiarity, this technology hopes to achieve greater consumer acceptance and rapid market adoption.These versatile crackers can be savoured as a delightful snack or paired with traditional dishes such as Nasi Lemak. Whether enjoyed as a standalone treat or as an accompaniment to a meal, these cricket-infused fried crackers offer a unique and flavourful experience that bridges the gap between innovative food trends and cultural culinary traditions.
Foods, Sustainability
Revolutionary Hybrid Manufacturing: Cost-Effective & High-Strength Custom Parts
revolutionary-hybrid-manufacturing-cost-effective-high-strength-custom-parts
TO416166
The innovative hybrid manufacturing technique combines additive and subtractive methods, utilising sheets and foils instead of powders, to produce high-strength, cost-effective parts with minimal post-processing. This approach is ideal for complex, customised applications in sectors such as healthcare, aerospace, and telecommunications. With up to a 50% cost advantage over traditional systems and compatibility with diverse materials, this technology promises significant advancements in manufacturing efficiency and safety.