Thanks to Mitacs Globalink Research Internship, over 60 undergraduate students from Ukraine are fulfilling research ambitions and driving Canada’s innovation ecosystem through summer internships at Canadian academic institutions
Dagoberto Torres García is putting his DNA extraction and PCR testing skills to use in Quebec this summer by helping to identify leafhoppers carrying harmful pathogens responsible for spreading disease affecting berry fields worldwide
When it comes to finding cures for rare diseases and addressing emerging viral infections — like COVID-19 — the traditional pharmaceutical business model just doesn’t cut it. Solutions require global collaboration and open-access research, and that means a new research innovation ecosystem — exactly what the Structural Genomics Consortium (SGC) is building.
A Mitacs Globalink Research Award researcher from U of T wins Mitacs Award for original research on the Bohemian court and monarchy, illuminating the important role of medieval queens and their often overlooked yet significant contributions to politics and culture.
A Mitacs Globalink research intern from Germany works with the University of Waterloo’s Institute for Quantum Computing to investigate how to control quantum systems that have multiple states, and to understand the impact for real-life solutions.
Top student from India and Mitacs Globalink intern, Hina Tomar, is helping a team at Université de Moncton to get to the root of the weed management problem on Canadian farms by designing smart agricultural drones.
A Mitacs Globalink research intern from Harvard University works with a Queen’s University lab to design an innovative device for rapid screening of pathogens that can cause Lyme disease as Ontario’s deer tick problem grows.
A Globalink Research Internship leads to graduate studies in Canada for the founder of NuPort Robotics, the country’s first autonomous trucking company that uses eco-friendly, self-driving electric trucks for short-haul drives.
Mitacs interns have teamed up with iMD Research to create a Bluetooth bracelet that uses artificial intelligence to predict the likelihood that a COVID-19 patient will need to be hospitalized based on their vital signs.