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NSERC awards $3.7M to 海角社区-led research projects

Six 海角社区 researchers earn Strategic Partnership Grants to control the spread of antimicrobial resistance, develop the next generation of Li-ion batteries, limit infections of Legionnaires' disease, and more.
Published: 3 May 2019

On May 3, the announced the recent recipients of the NSERC Strategic Partnership Grants program. Six 海角社区-led projects in the Faculty of Engineering and one in the Faculty of Medicine are receiving more than $3.7 million to conduct research in collaboration with a supporting organization.

鈥淲e are very grateful for the continued support shown by NSERC for partnered-research, which creates strong collaborations with industries and government agencies, and propels important technological advances to market,鈥 said Martha Crago, Vice-Principal, Research and Innovation. 鈥淚 applaud the six 海角社区 recipients whose innovative projects will benefit Canada鈥檚 economic, social and environmental future.鈥

Dominic Frigon, in the Department of Civil Engineering, was awarded two Strategic Partnership Grants in this round, one of which will tackle a leading global public health problem: rising drug resistance caused by use of antimicrobials in humans and other animals, and the spread of resistant strains between the two. Frigon will explore the role of wastewater treatment residual biosolids used as fertilizers, which create a direct pathway for the transmission of antimicrobial resistant genes (ARGs). By surveying ARGs in manures and wastewaters from five Canadian regions, Frigon鈥檚 research may support industry efforts to reduce the negative impact of ARGs on human health, agriculture, the environment, and global trade.

George Demopoulos, Department of Materials Engineering, received a three-year $580,500 grant to advance research on the next generation Li-ion batteries (LIB), the "invisible" technology that powers mobile electronics, and drives the commercialization of electric vehicles Demopoulos will tackle industry-wide challenges hampering scalable manufacturing of safer and longer-lasting compact LIBs at a competitive cost. To achieve these goals, Demopoulos and his research group will work in collaboration with Hydro-Quebec, a world leader in LIB R&D.

Maryam Tabrizian, Department of Biological and Biomedical Engineering, will use the $469,900 grant awarded to address inadequacies in the current detection methods for the bacterium Legionella pneumophila (Lp), which when present in waterways can cause major outbreaks of Legionnaires鈥 disease, such as the one experienced in Quebec City in 2012. In collaboration with Magnus Chemical Ltd, Tabrizian has proposed to develop a novel detection method based on the recognition of Lp by aptamers, short DNA sequences that fold into the structures binding specifically to a target. This detection strategy could greatly improve response-times to initiate treatment of water systems, in turn minimizing the risk of Legionnaires' disease outbreaks in Canada and around the world.

The 海角社区 researchers and projects chosen by NSERC for a Strategic Partnership Grant include:

Lawrence Chen

Software-defined cloud radio access networks enabled by a reconfigurable general microwave photonics signal processor. Amount awarded over three years: $558,300

George Demopoulos

Development of 3D hybrid electrolytes and nanostructured electrodes for scalable manufacturing of new-generation high-energy density solid-state lithium batteries. Amount awarded over three years: $580,500

Dominic Frigon

FECES-TO-FARM: technologies and molecular tools for controlling the dissemination of antimicrobial resistance from humans to animals while recovering fertilizing nutrients. $591,042

Photoheterotrophy for economical production of bioplastics from municipal organic waste: Integration of polyphosphate metabolism and P-recovery chemistry to maximize PHA yields. Amount awarded over three years: $507,249

David Plant

Autonomous Optical Networks that fully exploit System Margins. Amount awarded over three years: $489,450

Jun Song

Predictive assessment of hydrogen diffusion and segregation in high-strength steels: an ICME approach. Amount awarded over three years: $489,880

Maryam Tabrizian

Aptamer-based surface plasmon resonance detection of legionella pneumophila in water systems. . Amount awarded over three years: $469,900

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