Nanotechnology Engineering involves materials science and engineering, chemistry, physics, biology, and medicine. Nanotechnology discoveries and innovations have advanced biomonitoring devices, medical diagnostic and drug delivery therapies, functional materials, sensors, computers, communications, and sustainable energy materials. Nanotechnology impacts many industries, ranging from medical to pharmaceuticals, electronics to automotive, and communications.
Fun Facts about our Nanotechnology Engineering Program.
- The Nanotechnology Engineering Program was launched in 2005
- This program at the University of Waterloo is the first accredited Nanotechnology Engineering Program in Canada
- There are more than 500 students currently enrolled in our program
- We have a dedicated clean room with multimillion-dollar cutting-edge equipment for hand-on experiential learning
Waterloo offers hands-on laboratories with state-of-the-art equipment to train students to undertake material strength testing, chemical synthesis and investigation, biological sensing, nanoscale object analysis, and work in cleanroom environments.
Nanotechnology Engineering is one of the most interdisciplinary engineering programs and graduates of this program go on to found companies, work in established industries, or continue to graduate studies in Engineering or Science. Nanotechnology offers many paths to a successful future!
Waterloo's Nanotechnology Engineering program is run collaboratively through the Department of Chemical Engineering and the Department of Electrical and Computer Engineering in the Faculty of Engineering, and the Chemistry Department in the Faculty of Science.
The top five career sectors that our graduates are employed in are:
- semiconductors and electronics
- software
- healthcare and pharmaceuticals
- manufacturing
- entrepreneurship (start-ups)
Nanotechnology Engineering at UWaterloo
What is NE? Check Out this Animated Video
Learn About our Facilities Watch our Lab Tour Video
What is Nanotechnology Engineering Webinar
Nanotechnolgy Engineering and the COVID mRNA Vaccine
Nanotechnology Engineers design integrated circuits
News
Capstone team receives dual honours for innovative biomedical device design
Capstone Team 2 had two big wins at this year’s Capstone Design Symposium. They won the Baylis Medical Award along with Team 3. They also won the UN Sustainable Development Goal Award for the Nanotechnology Engineering Program. The team’s project was titled “ A+ Blood Typing”.
This team aimed to address the increasing demand for O-negative blood for blood transfusions. The demand for O-negative blood, also known as the "universal donor" blood type, is high because it can be safely transfused to patients of any blood type in emergency situations. This is critical when there isn't enough time to determine the patient's blood type. O-negative blood use is crucial in trauma situations, where quick transfusions are necessary to save lives.
Capstone Team MicroSeize aims to remove microplastics from wastewater
The members of Capstone Project Team 6 are very passionate about sustainability. Their project aim was to discover solutions to problems that harm the environment. The group chose to concentrate on the critical problem of microplastics in wastewater. Microplastics are not only harmful to delicate ecosystems but also pose a threat to human health, as well as land and marine life.
The project was called MicroSeize. Team members areRyan Ellis, Helen Engelhardt, Alex Matos, and Matthew Scarfo. They developed a scalable methodology for capturing common plastics that other methods cannot retrieve, such as polystyrene and PET microplastics, from wastewater. Most of their testing was conducted on polystyrene because it creates the smallest microplastics.
Nanotechnology Engineering alumna leverages skills to advance women’s health
Cervical cancer is diagnosed in over 1,000 Canadian women each year, and approximately 410 women die from the disease annually. Women need to undergo regular cervical cancer screening, as early detection can significantly increase the chances of successful treatment.
However, in Ontario, women are only eligible for the Pap Test (or Pap smear) every three years. CT Murphy a Nanotechnology Engineering (NE) graduate (BASc ’23) aims to create a new testing method that allows women to screen for the human papillomavirus (HPV) that usually causes cervical cancer.