Nanostructures are increasingly used for many purposes that include drug delivery, solar cell efficiency improvement, catalysts, and optical sensors. Accordingly, there has been a corresponding increase in demand for nanostructures, and a need for efficient manufacturing processes that can meet this demand. One such manufacturing process that has shown potential is gas-phase synthesis. Nanostructures can […]

Molybdenum disulfide (MoS2) Quantum Dots (QDs) are being developed for use in areas from optoelectronics to energy storage and conversion, but synthetic protocols have yet to be developed to prepare high quality 0-dimensional (0D) material. A key challenge in efforts to develop synthetic protocols is a lack of rapid characterization technique that can unambiguously identify […]

A key aspect of human behaviour is the ability to flexibly interact with our dynamic environment. From a baby learning to walk, to a pilot flying a plane, humans rely on their ability to acquire relevant information from the environment, integrate that information into their planning and decision making, and generate the necessary actions successfully. […]

Improving the quality of X-ray imaging and radiation therapy is crucial to the efficacy of cancer treatments. Recently, hafnium dioxide nanoparticles (HfO2 NPs) have been approved in the European Union as a radiosensitizer and are currently in clinical trials in the United States. This is based on hafnium’s ability to amplify local radiation doses by […]

Our group develops advanced tools that allow us to observe and understand materials operating within the realm of quantum physics, particularly those that emit light at the smallest scales. Quantum materials, often regarded as the superheroes of the science world, possess unique properties that can revolutionize technology—from ultra-fast computers to highly secure communication systems. To […]

Canada aims to significantly reduce greenhouse gas emissions by 2030 and achieve net-zero emissions by 2050. Buildings play a big role in this effort, so this research focuses on developing a tool to design and retrofit buildings for greater energy efficiency and sustainability. Using advanced computer models and data from building simulations, this tool predicts […]

This project aims to quantify defects in the probability framework for 2-dimensional (2D) materials with superior performance using optical techniques, primarily focusing on molybdenum disulfide (MoS2). Additionally, defects are an important factor influencing the performance of single-photon emitters (SPEs), a type of quantum device. This project will directly relate the SPE performance with defect concentration. […]

Graphene is a promising new nanomaterial, single layers of graphite, with superior physical and electrical properties making it an ideal candidate for electrical applications; however, current graphene production methods are expensive and complicated. As a result, new materials that have similar properties to graphene, but are more amenable to high-yield production are currently being investigated. […]

This research project will explore how a Geographic Information System (GIS) analysis can aid in enhancing the sustainable Basa fish industry in Vietnam. Enhancement is achieved through increasing market value, reducing the impact on global seafood supply chains and reducing negative local environmental impacts. GIS is an application that allows for complex spatial analysis of […]

This project aims to enhance Aview International’s platform by adding advanced real-time translation, live streaming support, and real-time dubbing capabilities. These new features will allow content creators to broadcast their content live in multiple languages simultaneously, breaking down language barriers and making their content accessible to a global audience. This will significantly expand Aview International’s […]

This project focuses on assessing the commercialization viability of Rogers Communications’ investments in 5G technology. The project aims to support ongoing innovation projects in partnership with the University of Waterloo by evaluating their commercialization potential through qualitative research. The project will benefit Rogers Communications by providing them with a better understanding of how to leverage […]

Lignocellulosic biomass plays a vital role in the global shift away from the utilization of non-renewable petrochemical resources. the market demand for lignocellulose nanofibrils has increased dramatically as they are attractive as a bio-based material due to their high strength, low density, high aspect ratio, functional ability, and biodegradability. Therefore, the sharing of scientific knowledge […]