This work focuses on solar-driven hydrogen production and the valorization of glycerol into value-added chemicals using advanced photocatalysis techniques. By combining renewable energy with glycerol waste management, this research addresses two critical challenges: reducing greenhouse gas emissions through clean hydrogen production and creating a sustainable, circular economy by converting biodiesel byproducts into useful chemicals. There […]

Brain aneurysms are blisters on brain arteries caused by high blood pressure and smoking. Every 18 minutes, a brain aneurysm ruptures, leading to 1,370 deaths a day worldwide. This project seeks to develop an innovative brain implantable device to treat brain aneurysms through prototyping, lab validation, and customer discovery and feedback. The partner organization supports […]

Global navigation satellite systems have significantly improved aeronautical navigation over the past decades, providing a safe and precise means of navigating airspace. Unfortunately, recent years have seen a worrying increase in GPS interference incidents in aviation, which is alarming because GPS is crucial for modern aviation navigation and safety. GPS interference, through jamming and spoofing, […]

In recent years, lignin valorization has gained increasing attention in both academic and industrial sectors, hoping to achieve salient breakthroughs in lignin metabolism. Many studies have pointed to a promising approach using microorganisms particularly bacteria for lignin valorization through a bio-funneling approach, converting it into products of biotechnological interests. Thus, this project aims to contribute […]

This Mitacs Globalink project, part of a PhD thesis titled “Exact and Heuristic Methods for the Quadratic Knapsack Problem (QKP),” aims to develop new optimization techniques for solving the QKP, a problem with significant applications in industries like logistics, finance, and electronics. Building on prior successes, including a dynamic programming heuristic and an algorithm using […]

This research project aims to solve the problem of fragmented data in the aviation industry by developing a system that integrates and analyzes various data sources. The goal is to create dynamic dashboards that provide real-time insights into safety, compliance, and operational status for different users, such as airlines and ground service providers. The focus […]

The aging population faces mobility challenges, with existing devices offering only basic, passive support, which increases the risk of falls and injuries. The proposed solution, AidMe LLM-Powered Mobility Framework, enhances motorized assistive devices with AI, allowing users to issue voice commands and receive adaptive support. This improves user autonomy and reduces injury risks. This BSI […]

We will develop a fiber-optical sensor system that can be applied to monitor pipelines. By recording the response of a fiber-optic transducer to ultrasound that is generated on the wall of a pipeline we can measure the flow velocity of the fluid inside the pipeline. Similar measurements are presently conducted by pipeline operators using piezo-electric […]

This project aims to develop a vertical farming system that will produce fresh, high-quality crops in urban areas, helping to address food insecurity and promote wellness. Using advanced farming technology, the system will require less land and water compared to traditional agriculture, making it more sustainable and efficient. The expected benefits for the partner organization […]

The OER is a key reaction in water splitting, crucial for green hydrogen production. Currently, precious-metal catalysts like IrO2 and RuO2 are effective but prohibitively expensive and rare, limiting their application. Iron-based electrocatalysts, given their abundance and favorable catalytic properties, offer a promising alternative but require further optimization to achieve performance levels competitive with state-of-the-art […]

The research program investigates the potential of form-fitting connections in terms of structural performance, manufacturing cost, ease of assembly, and embodied carbon to that of connectors currently employed in the industry. The joint topologies considered will be influenced by joinery techniques and geometry from various cultures and an understanding of the factors that led to […]

BioCCM is an innovative start-up focused on sustainable construction materials, transforming agricultural and forestry biomass waste into phase change materials (PCMs) for energy-efficient buildings. These advanced materials provide an environmentally friendly solution for maintaining thermal comfort in structures while reducing carbon emissions and improving resource efficiency. By utilizing biomass residues, BioCCM addresses key environmental and […]