Transforming Food Waste into Cost-Effective Animal Feed Solutions
transforming-food-waste-into-cost-effective-animal-feed-solutions
TO175427
The agriculture sector faces a double challenge: rising animal feed costs and unsustainable food waste management. For many livestock farmers, feed accounts for up to 70% of operating costs, with heavy reliance on volatile imports like soybean meal, corn, and fish meal. At the same time, the food and beverage industry generates millions of tons of nutrient-rich by-products such as okara, spent grain, and fish offal, much of which is discarded—causing methane emissions and environmental harm.This technology provides a circular solution by converting high-moisture food waste into stable, high-value livestock nutrition. Through an innovative bio-conversion process, nutrient-rich by-products are rapidly transformed into a low-moisture, shelf-stable feed enriched with beneficial microorganisms. The resulting feed not only reduces dependence on imported raw materials but also supports animal health and productivity. Compared with insect protein or traditional heat-drying, this approach is faster, more energy-efficient, and scalable across both rural and industrial contexts. The technology directly lowers feed costs for farmers by 5–20%, creates new revenue streams from food waste, and cuts greenhouse gas emissions by up to 2 tons of CO₂e per ton diverted, while requiring only low CAPEX and minimal investment for setup.The technology owner seeks collaboration with IHLs, research centres, F&B/waste management players, and deep tech IoT companies for R&D, licensing, and test-bedding opportunities.
Sustainability
Formulation and Optimisation of Fish (O. niloticus) Feed from Food Waste Protein Source
formulation-and-optimisation-of-fish-o-niloticus-feed-from-food-waste-protein-source-2
TO175378
The aquaculture industry is facing rising costs of conventional feed. Premium protein sources such as fishmeal and fish oil are highly price-volatile due to fluctuating supply and demand, and reliance on imported feed further increases costs. Another key challenge is the growing volume of food waste. A survey of local food processing companies conducted between August 2022 and June 2023 identified approximately 174,300 tonnes of homogeneous food waste, highlighting the scale of the problem. This technology offers a sustainable aquafeed solution by converting by-products from soy sauce production, fish processing, and bread waste into nutritionally balanced feed for tilapia (O. niloticus), maintaining optimal growth performance while reducing dependency on conventional, expensive feed ingredients.
Waste Management & Recycling, Sustainability
Food Filtration Membranes and Systems
food-filtration-membranes-and-systems
TO175392
Traditional membrane technologies used in the food industry (e.g., diatomaceous earth or plate-and-frame systems) often face limitations such as significant waste, limited reusability, inconsistent quality, and labor-intensive maintenance. This advanced food-grade membrane technology overcomes these challenges by utilising hollow fibre filtration systems engineered for high flux, strong chemical resistance and long operational life. As a next-generation food filtration membrane solution, it enables precise separation, clarification, and concentration of food and beverage products while eliminating the need for filter aids and significantly reducing water, energy, and waste usage. Fully compatible with clean-in-place (CIP) systems, the technology supports automated, hygienic, and sustainable production workflows. Designed as a versatile food filtration membrane option, its adaptability across various applications – including beer clarification, soy sauce concentration, dairy processing, and plant extract purification – makes it a scalable solution that aligns with industry demand for efficient, low-waste, and high-quality food processing.
Foods
Functional Film Integration in Lightweight Recycled Plastic Composites
functional-film-integration-in-lightweight-recycled-plastic-composites
TO175372
The global plastic waste problem is intensifying, with over 480 billion PET bottles produced each year and recycling rates in Singapore at just 4%. The majority end up in landfills or incinerators, driving CO₂ emissions and environmental damage. Current recycling approaches often degrade material quality, preventing recycled PET from being used in higher-value applications. This not only worsens the waste crisis but also limits progress toward a circular economy.This technology tackles the issue with a low-temperature embedment process that integrates functional films directly into lightweight rPET composites. By avoiding high heat and adhesives, it preserves the integrity of both the PET base and the embedded components — ensuring long-term durability and performance.The outcome is a new class of multi-functional, high-performance composites that deliver structural strength while supporting additional functions, from energy generation to protective coatings. Importantly, the design also allows for straightforward separation and recycling at end-of-life, closing the loop on material use.The technology owner is looking to collaborate with industrial partners in sectors like renewable energy (e.g., wind turbine blades) and high-performance building applications. These companies can integrate advanced functionalities into their products while dramatically improving their sustainability profile. We are actively seeking R&D co-development partnerships to expand product portfolios and create new applications.
Sustainability
Recyclable Self-Reinforced PET Composites for Mobility & Construction
recyclable-self-reinforced-pet-composites-for-mobility-construction
TO175399
The mobility and construction sectors face increasing pressure to reduce carbon emissions, meet stricter recycling regulations, and achieve lightweighting without compromising performance. Conventional fiber-reinforced plastics (FRPs) provide strength and stiffness but introduce significant end-of-life challenges, as their multi-material composition makes separation and recycling costly and often impractical. This results in large volumes of waste, higher lifecycle costs, and growing regulatory risks for manufacturers.This technology introduces a recyclable, self-reinforced PET (srPET) composite, delivering high-performance mechanical properties in a truly circular, mono-material system. Unlike FRPs that rely on different polymers or fiber reinforcements, srPET uses PET for both the matrix and the reinforcement, eliminating material incompatibility at end-of-life. The composite is produced from 100% post-consumer recycled PET (PCR-PET), ensuring alignment with global carbon-reduction and circular economy goals.By combining excellent strength, formability, and thermal performance with compatibility for standard thermoplastic processing methods (such as press molding and lamination), this material bridges sustainability with industrial scalability. It provides a lightweight, durable, and recyclable alternative to traditional plastics, metals, and non-recyclable composites. The technology is ideally suited for automotive, aerospace, defense, and construction industries, where manufacturers seek to balance regulatory compliance, sustainability, and performance.The technology owner is seeking R&D collaborations, licensing partnerships, and test-bedding opportunities with OEMs committed to sustainable material adoption.
Chemicals
Non-invasive Blood Glucose Evaluation And Monitoring Technology
non-invasive-blood-glucose-evaluation-and-monitoring-technology
TO175467
Maintaining stable blood glucose levels is central to achieving a healthier lifestyle and preventing metabolic disorders such as diabetes. Even for non-diabetic individuals, daily fluctuations in glucose can affect energy levels, focus, sleep quality, and long-term metabolic health. As awareness grows around personalized health tracking, consumers are increasingly seeking simple, non-invasive ways to understand how diet, exercise, and stress influence their glucose patterns.BGEM meets this need through a smartphone app that estimates blood glucose levels non-invasively using data from smartwatches, fitness trackers, and smart rings. By leveraging the photoplethysmography (PPG) sensors that users already wear, the app provides on-demand insights into glucose fluctuations without the need for finger pricks or patches.Powered by advanced algorithms in the cloud, the system translates wearable sensor data into personalized glucose trend information, allowing users to visualize how daily habits influence their metabolic responses. This empowers individuals to make informed lifestyle adjustments, supporting better nutrition choices, improved fitness outcomes, and early awareness of potential glucose irregularities.Unlike conventional continuous glucose monitors that rely on invasive sensors, this technology is completely non-invasive, affordable, and accessible, making proactive glucose monitoring possible for a broader health-conscious population. This solution is designed for consumers who want to take greater control of their wellness journey through meaningful, data-driven insights.The technology owner is seeking collaborations with hardware manufacturers for integration, wearable brands for product development, distributors and IHLs for expanding research.
Healthcare
Co-free High-Nickel Cathode Materials for Lithium-Ion Batteries
co-free-high-nickel-cathode-materials-for-lithium-ion-batteries
TO175459
The lithium-ion battery industry has long relied on cobalt-based cathode materials such as NCM (nickel–cobalt–manganese) and NCA (nickel–cobalt–aluminum) to achieve high energy density and stable performance. However, cobalt is expensive, environmentally unsustainable, and often associated with ethical issues in mining. As global demand for batteries continues to rise, there is an urgent need for cobalt-free alternatives that offer similar or better performance at lower cost.This technology introduces a new class of cobalt-free, high-nickel layered cathode materials designed for next-generation lithium-ion batteries. With a nickel content above 90%, it achieves both high energy density and long cycle life through improved control of material composition and surface stability during synthesis.The optimized process ensures high structural integrity, stable performance, and scalability for mass production—addressing key challenges in commercializing cobalt-free, nickel-rich cathodes. This innovation offers a sustainable, cost-effective, and high-performance solution that supports the battery industry’s shift toward cleaner and more responsible manufacturing.The technology owner is looking for R&D and licensing collaborations with battery material manufacturers, EV battery producers, and energy storage system companies seeking cobalt-free and high-performance cathode solutions.
Energy, Environment & Clean Tech
High-Purity Li₂S Production Method for Next-Generation All-Solid-State Batteries
high-purity-lis-production-method-for-next-generation-all-solid-state-batteries
TO175458
All-solid-state lithium batteries are emerging as the next frontier in energy storage, offering higher safety and energy density than conventional lithium-ion systems. A key challenge in their development lies in producing high-purity lithium sulfide (Li₂S)—a critical precursor for sulfide solid electrolytes such as Li₁₀GeP₂S₁₂. Conventional synthesis methods typically require high temperatures and complex purification, resulting in high costs and limited scalability.This technology presents a novel low-temperature chemical synthesis process for producing battery-grade Li₂S under mild reaction conditions (below 100 °C). Using a solution-based approach with organic solvents, surfactants, and catalysts, the process achieves precise control over Li₂S particle size (50 nm–1 µm) and crystallinity. The resulting material exhibits high purity (up to 99.5% - 99.9%), high yield (85% - 90%) and improved ionic conductivity when incorporated into solid electrolytes. The simplified synthesis eliminates post-annealing and purification steps, reducing production cost and energy use while enabling scalable mass production. There is also no need for dry-room or toxic-gas facility, drastically reducing costs for CAPEX and OPEX. The technology owner is looking for R&D collaboration with battery manufacturers, material suppliers, and R&D institutions who are developing next-generation all-solid-state batteries.
Energy, Chemicals, Environment & Clean Tech
Immersive Dashboard for Sustainability
immersive-dashboard-for-sustainability
TO175450
This technology leveraged multiple advanced components to deliver an immersive, data-driven BI (Business Intelligence) dashboard for smart building management.3D visualization and integration formed the dashboard’s intuitive interface, utilizing a photorealistic 3D-scanned building. Technologies such as laser scanning and photogrammetry were used to create the digital twin. This 3D model was then integrated with real-time IoT data using Building Information Modeling (BIM) principles, enabling visualization of sensor data directly within the digital replica of the building.An IoT sensor network and data acquisition system played a crucial role, with various sensors deployed to monitor building performance, energy usage (including non-invasive water and power monitoring), and environmental conditions. These sensors transmitted data wirelessly, using protocols such as MQTT and LoRaWAN to an IoT platform.For data processing and storage, an edge IoT platform served as the backbone for collecting, processing, and managing large volumes of real-time sensor data. Built-in rule engines enabled data enrichment and automated alerting.Finally, immersive dashboard development frameworks were pivotal in creating interactive user experience. Web-based 3D visualization libraries rendered the building model and integrated dynamic data overlays.While BI tools such as Tableau or Power BI may have supported traditional dashboard components, custom immersive development provided a more intuitive 3D environment for navigation and data exploration.
Sustainability, Green Building, Infocomm, Environment & Clean Tech
Digital Product Passport for Traceability and Compliance
digital-product-passport-for-traceability-and-compliance
TO175360
This technology provides a secure and privacy-preserving digital infrastructure for traceability, regulatory compliance, and sustainability verification across global supply chains. It was developed in response to tightening international regulations, such as those in the European Union, which require companies to disclose detailed product and material data through digital passports.
The solution addresses key challenges in supply chain management, including fragmented data systems, unverifiable sustainability claims, and inefficient audit processes. It enables companies to log, verify, and share trusted data across all tiers of the supply chain.
Applicable to industries such as electronics, batteries, construction materials, and textiles, this technology supports compliance with environmental, social, and governance (ESG) requirements. It transforms compliance into a competitive advantage, enhancing transparency, reducing risk, and enabling access to sustainability-linked market benefits such as green premiums.
The need for such a solution is underscored by growing global regulatory pressure and operational gaps: studies show that over 70% of companies lack visibility beyond Tier 1 suppliers, and the incidence of greenwashing-related penalties has risen sharply in recent years.
The technology owner is seeking R&D collaborations, test-bedding partners, and licensing opportunities to co-develop new use cases and expand industry applications.
Infocomm
Cloud Based Business Negotiation Support System
cloud-based-business-negotiation-support-system
TO175423
Given the importance of English as the international language of business, many Asian professionals and workforces still face a significant proficiency gap compared to their Western counterparts. They often encounter difficulties in three key areas: 1) understanding technical nuances, 2) drafting documents such as proposals and agreements, and 3) comprehending the diverse range of English accents found in regions like Korea, China, Japan, India, and Singapore.
To address these challenges, our technology offers an e-learning platform that provides individuals and teams with a structured approach to complex business negotiations. It features standardized templates and conversational expressions to guide users effectively. This solution tackles common pain points, including inconsistent preparation, inadequate documentation, and a lack of analytical tools, which often result in suboptimal agreements.
The system delivers step-by-step workflows for identifying stakeholders, defining negotiation objectives, evaluating leverage, and formulating strategies. It incorporates analytical modules for SWOT analysis, Position/Interest (P/I) analysis, Zone of Possible Agreement (ZOPA) estimation, and the development of alternative options. By integrating scenario-based logic with standardized templates, the platform empowers users to enhance their negotiation preparation, ensure consistent decision-making, and track outcomes effectively. The primary target adopters include corporate procurement teams, business development units, IP licensing managers, and international traders who are committed to building advanced negotiation skills.
Infocomm
VR Training for Seafarers on Safe Methanol Bunkering Operations
vr-training-for-seafarers-on-safe-methanol-bunkering-operations
TO175386
These VR simulations can replicate various bunkering scenarios, including challenging weather conditions, emergencies, and equipment malfunctions. Trainees can develop problem-solving skills and adaptability in a controlled setting, preparing them for real-world challenges. In addition, immersive technology enables remote training, overcoming logistical constraints and reducing the costs associated with physical training setups. Trainees can access methanol bunkering training modules from anywhere at any time, improving accessibility and scalability.
The technology provider is seeking collaboration partners spanning both industry and technology sectors, including maritime partners, bunker operators, ship owners and shipping lines, as well as VR solution developers, simulation software companies, and AI analytics providers.
Infocomm