Chemia is a material discovery company that aims to improve its material handling and characterization processes by developing innovative automation and robotics solutions in this project. The initiative is set to enhance Chemia’s capabilities in developing innovative functional materials, focusing on developing more efficient CO2 capture and waste heat recovery technologies. This project is particularly […]

THIS IS A GENERIC TEXT PUT IN PLACE AS THERE WAS NO PROJECT OVERVIEW

THIS IS A GENERIC TEXT PUT IN PLACE AS THERE WAS NO PROJECT OVERVIEW

Wearable devices are a promising technology for collecting and analyzing physiological and environmental data for various applications, including healthcare, sports and fitness, and occupational health and safety. In some settings, these wearable devices can also be integrated with actuation capabilities to interact with users. The proposed research project focuses on applying wearable technologies to thermal […]

NexaPowder Inc. aims to revolutionize metal 3D printing by recycling scraps and waste into affordable, eco-friendly metal powders. This will slash costs by half and reduce carbon emissions by 80%, making metal 3D printing more accessible and sustainable. The Lab2Market Launch program offers NexaPowder tailored support to develop vital business skills and secure funding, helping […]

Inspired by the Remora fish we have developed a remotely operated vehicle (ROV), specifically designed for underwater maintenance using metal additive manufacturing principles. Targeting offshore structures and Navy vessels as our main clientele, our ROV will not only facilitate repairs conducted by professional divers but also undertake the rebuilding of damaged parts without dry docking. […]

The proposed project aims to develop an electroless nickel-phosphorus composite coating for tire molds to address common issues such as product sticking and damage during demolding. By applying this coating, we aim to provide semi-permanent protection and anti-sticking properties to the molds, reducing the need for frequent application of releasing agents. This innovation is expected […]

During this dual internship, I will be involved in the PIONEER project (PhotoactIve OrgaNic polymErs for watER treatment). It has been demonstrated that through light irradiation, BTI (benzothioxanthene imide) in water generates hydroxyl radicals (OH•), with their recombination product being hydrogen peroxide (H2O2). Hydrogen peroxide serves an antifouling function due to its compatibility with living […]

This project aims to improve the way we assess the strength of short fiber reinforced composites, focusing on sustainability. By exploiting the distinct visibility traits of PEEK and carbon fibers in CT scans, the study will utilize non-destructive testing and computer algorithms to analyze and measure factors critical to the material’s strength directly from scan […]

This research project aims to significantly improve the way data are managed in a specific self-driving laboratory in the AUTODIAL group of Prof. Hattrick-Simpers at the University of Toronto, focusing on discovering new materials that are resistant to corrosion. This class of labs, known as Self-driving labs (SDL) or Materials Acceleration Platforms (MAPs), use advanced […]

Semiconducting polymers (SPs) are at the forefront of the next generation of organic electronics. They enable seamless integration into various biological and industrial applications. SPs can be engineered to be mechanically compliant and soft, giving them an advantage over silicon-based electronics. Their electronic and solid-state properties also make them promising candidates for emerging organic electronics. […]

This project aims at improving LED technology through the utilization of advanced atomically thin materials. It seeks to create a scalable method for fabricating high-performance, energy-efficient, and flexible LEDs, addressing challenges in scalability and reproducibility. By combining CVD-grown transition-metal dichalcogenides (TMDCs) with spatial atomic layer deposition (SALD)-grown semiconducting oxides, the project promises to advance research […]