This project explores new ways to make medical imaging faster, more accessible, and more efficient in emergency and critical care settings. It aims to address the broader challenge of improving how clinicians can quickly obtain vital diagnostic information when every minute matters. The work combines insights from advanced imaging, computational modeling, and healthcare innovation to […]

This project aims to convert seafood waste such as shells, bones, and seaweed trimmings into valuable nanoparticles using nanotechnology. Instead of discarding these materials, they will be transformed into eco-friendly products for use in agriculture, medicine, wastewater treatment, and renewable energy. The nanoparticles will help improve soil health, enhance crop nutrition, clean polluted water, and […]

Aquaculture and coastal water treatment facilities across Atlantic Canada and beyond are facing increasing challenges in maintaining reliable water quality. Marine environments are burdened by nutrient runoff, pathogens, and pollution that directly impact fish health, leading to frequent contamination events and yield losses of 10–30%. These losses translate into millions of dollars in damages annually […]

Leadless (wireless) Cardiac Pacemakers (LCPs) were developed to overcome complications of traditional pacemakers, such as lead fracture, dislodgement, and infection. Despite their advantages, current LCPs face major limitations. This project aims to recharge LCPs using electric fields, enabling advanced functions such as inter-device synchronization without increasing device size or altering established titanium encapsulation methods used […]

Newfoundland and Labrador welcomes over 28,000 seafarers each year who support key sectors such as offshore energy, fisheries, and international trade. Despite the province’s deep maritime heritage, St. John’s remains the only major Canadian port without a dedicated Seafarers’ Centre. This gap limits access to essential welfare services, rest facilities, and communication support for visiting […]

Developing a novel cryo-microfluidic device for ultra-rapid, cryoprotectant-free cell preservation. The project advances prototype design, testing, and market validation to improve biotechnology and regenerative medicine applications in Canada.

The proposed project aims to develop advanced materials that can better resist corrosion and damage in marine and offshore environments. These materials will help extend the service life of equipment and structures exposed to harsh seawater conditions, reducing maintenance costs and downtime. By improving durability and reliability, the project will support safer and more efficient […]

This project will develop two integrated boil-off gas recovery and re-liquefaction systems for liquefied natural gas and liquefied hydrogen carriers that harness ship exhaust heat and convert it into usable energy through the Kalina power cycle and water-ammonia absorption refrigeration unit. Unlike conventional re-liquefaction systems that require burning additional fuel to produce cooling, the proposed […]

The proposed project focuses on developing and testing metal–organic frameworks (MOFs) for capturing CO2 from both the air and seawater. The intern will identify promising MOF materials, conduct laboratory experiments to measure CO2 uptake, and use computational and machine learning tools to predict performance and optimize designs. The project also includes evaluating the costs, energy […]

This project will develop an AI-powered cybersecurity system to help protect important ocean infrastructure, starting with offshore energy systems such as oil and gas, wind and tidal farms. These facilities are becoming a key part of Canada’s clean energy future but are also vulnerable to cyberattacks that could cause costly shutdowns or disruptions. The project […]

We are developing a self-powered ocean-energy system that reduces reliance on conventional batteries by using triboelectric nanogenerators (TENGs) to harvest energy from ocean waves, currents, and wind. Unlike many existing technologies that struggle with low-frequency and unpredictable motion, TENGs are lightweight, low-cost, and highly efficient at capturing irregular, low-frequency energy. With nearly 70 % of […]

Offshore oil rigs play a critical role in Canada’s energy industry, but they rely heavily on diesel generators that are expensive, polluting, and difficult to maintain in remote marine environments. This project explores the development of highly efficient DC–DC converters—advanced electronic devices that improve the way electricity is managed on offshore platforms. These converters make […]