Recycling of Urea-Formaldehyde Resin-Bonded Particleboard and MDF

The large global production quantity of particleboard and medium density fiberboard (MDF) creates equal quantity of particleboard and MDF waste after completing their service life. Given increasing demand for green products and the new government’s environmental policies, it is urgent to develop technologies to recycle these used composite panels into valuable raw materials for manufacturing […]

Read More
Recycling of Urea-Formaldehyde Resin-Bonded Particleboard and MDF – Year two

The large global production quantity of particleboard and medium density fiberboard (MDF) creates equal quantity of particleboard and MDF waste after completing their service life. Given increasing demand for green products and the new government’s environmental policies, it is urgent to develop technologies to recycle these used composite panels into valuable raw materials for manufacturing […]

Read More
Development and validation of B1R-targeted antibodies for cancer therapy

In recent years, significant scientific breakthroughs have opened the door to harnessing the immune system to fight cancer. One potential group of targets, known as G protein coupled receptors (GPCRs), have proven challenging due to their membrane localization and the existence of several close analogues, which often leads to ineffective or even non-specific mode of […]

Read More
Development of a Novel Sustainable Adsorbent Unit for Indoor Air Purifiers

This project is with Airpura – a developer of indoor air purifiers. We plan to develop a prototype and upscale the technology of recyclable coated iron-oxide systems, incorporated in the design, from the laboratory-scale to final consumer product use. The newly introduced adsorbent system serves to increase the removal efficiency of the volatile pollutants less […]

Read More
Development of Chitosan-based Nanosparticles forLoading Non-water Soluble Medicine

Over 90% new drugs cannot be used in market or perform inefficiently because of their poor water-solubility. Delivery of non-water soluble medicine by using biodegradable carriers can solve the problem. This research work aims to develop N-trimethyl chitosan chloride (TMC)-based nanoparticles used as a drug carrier for delivering non-water soluble medicine to enhance the therapeutic […]

Read More
Fonctionnement de l’erablierc a la limite de son aire de distribution

Le stage propose dans Ie cadre dc cette demande s’inscrit dans un projet plus vaste mene par Dominique Gravel, Christian Messier, Yves Bergeron et moi:meme, subventionnc par Ie FQRNT pour la periode allant de Janvier 2011 a Janvier 2015. L’objectifprincipal de ce projet est d’avoir une meilleure comprehension des phenomenes sous-jacents is la migration des […]

Read More
Characterization and Modeling Inclusion Population during Secondary Steelmaking

The ultimate goal of this project is to develop a fundamental understanding of inclusion evolution during a particular refining process in secondary steelmaking unit. The particular focus is firstly on developing a detailed characterization of the inclusions formed during refining in the Stelco Ladle Metallurgy Facility, and secondly on adapting the existing McMaster ladle metallurgy/inclusion […]

Read More
Characterization and Modeling Inclusion Population during Secondary Steelmaking – Year two

The ultimate goal of this project is to develop a fundamental understanding of inclusion evolution during a particular refining process in secondary steelmaking unit. The particular focus is firstly on developing a detailed characterization of the inclusions formed during refining in the Stelco Ladle Metallurgy Facility, and secondly on adapting the existing McMaster ladle metallurgy/inclusion […]

Read More
Enzymatic nano-immobilisation facilitated by 2D materials for antifouling coatings

Enzyme immobilisation is crucial for preserving the enzyme activity while enabling the enzymes to be recovered and reused for multiple applications in biocatalysis. However, immobilisation can change the structure and functionality of enzymes. Therefore, immobilisation of enzymes needs to be carefully investigated and controlled at fundamental levels. The emerging two-dimensional (2D) materials, such as graphene […]

Read More
Enzymatic nano-immobilisation facilitated by 2D materials for antifouling coatings – Year two

Enzyme immobilisation is crucial for preserving the enzyme activity while enabling the enzymes to be recovered and reused for multiple applications in biocatalysis. However, immobilisation can change the structure and functionality of enzymes. Therefore, immobilisation of enzymes needs to be carefully investigated and controlled at fundamental levels. The emerging two-dimensional (2D) materials, such as graphene […]

Read More
Towards Understanding the Behaviour of FRP-Reinforced Structures under Changing Climate Trends

Fibre reinforced polymers (FRP) have become an attractive solution to make infrastructure corrosion- and disaster-resistant. Cities like Toronto have numerous structures and bridges already retrofitted with FRP and many more underway. However, FRPs effectiveness and and durability is sensitive to extreme thermal conditions, which can cause significant mechanical and durability issues. Climate change, one of […]

Read More