Job Title

University: University of Calgary Country: Canada Deadline: Not specified Fields: Biomedical Engineering, Electrical Engineering, Mechanical Engineering, Nanotechnology, Biophysics Topic: Canada PhD in Biomedical Engineering at University of Calgary Position: PhD About The University Or Research Institute The University of Calgary is one of Canadas leading researchintensive institutions, consistently ranked among the top universities in the country and globally recognized for its commitment to academic excellence and innovation. Located in Calgary, Alberta, the university provides a vibrant and inclusive environment for graduate students, offering access to worldclass laboratories, interdisciplinary collaborations, and strong industry partnerships. Calgary itself is a dynamic Canadian city that blends urban sophistication with breathtaking natural surroundings. Known for its high quality of life, safety, and multicultural community, Calgary offers international students a welcoming environment and a gateway to Canadas thriving tech, health, and engineering sectors. The citys proximity to the Canadian Rockies and its vibrant cultural scene make it an attractive destination for students seeking both academic and personal growth. Research Topic and Significance The focus of this PhD position lies in optimizing the design and operation of a novel microfluidic electrofiltration platform, a technology developed within the Sen laboratory. This innovative platform is capable of separating charged biological nanoparticles, with particular emphasis on isolating populations of extracellular vesicles from biological fluids. Extracellular vesicles are increasingly recognized for their critical roles in celltocell communication, disease progression, and as potential biomarkers for a range of medical conditions. Effective isolation and characterization of these vesicles are essential for advances in diagnostics, therapeutics, and personalized medicine. The research conducted in this project has the potential to significantly impact the fields of biomedical engineering, nanotechnology, and clinical diagnostics by providing new tools for the analysis and manipulation of biological nanoparticles. Project Details The PhD student will join the Sen laboratory, a research group specializing in microfluidic technologies and nanoparticle engineering. The primary objective is to further develop and optimize a microfluidic electrofiltration system, leveraging advanced computational fluid dynamics and microscale simulation tools such as COMSOL Multiphysics (fluid flow and electromagnetics modules). Key Responsibilities Designing and executing laboratory experiments related to nanoparticle separation. Maintaining meticulous records of experimental procedures and results. Leading the preparation and submission of scientific manuscripts to highimpact journals. Presenting research findings at national and international conferences. Collaborating with other research groups and contributing to laboratory operations. Upholding principles of equity, diversity, inclusion, and accessibility within the research environment. The project offers an exceptional opportunity to develop expertise in areas such as microfluidics, nanotechnology, and computational modeling, while working alongside leading experts in the field. Candidate Profile Ideal Candidates Will Possess B.Sc. and M.Sc. degrees in biomedical engineering or a closely related discipline (such as electrical engineering, mechanical engineering, nanotechnology, or biophysics). Demonstrated experience in designing and performing laboratory experiments. A strong technical background in nanoparticle interactions within fluid systems and electrical fields. Proficiency in computational fluid dynamics and experience with COMSOL Multiphysics (specifically fluid flow and electromagnetics modules). A high level of motivation, independence, and ethical research conduct. Excellent organizational skills and attention to detail. Strong written and oral communication skills, with a track record of contributing to scientific publications. A collaborative mindset and willingness to work in a diverse, multidisciplinary team. This position is ideal for candidates who are innovative, eager to tackle complex scientific challenges, and committed to contributing to a collegial research environment. Application Process A cover letter outlining motivation for applying and a clear description of how previous scholarly accomplishments align with the position. An uptodate curriculum vitae (CV). The names and contact information of at least two references. Applications should be submitted as outlined in the official advertisement. For further information and application instructions, please refer to the LinkedIn post by Dr. Arin Sen: This PhD position at the University of Calgary offers a unique opportunity to make meaningful contributions to the fields of biomedical engineering and nanotechnology. If you are driven by scientific curiosity and committed to advancing healthcare technologies, you are encouraged to apply for this position and join a vibrant academic community in Canada. Stay tuned for similar opportunities and explore how you can shape the future of biomedical research. Questions and Answers Question: What are the benefits of pursuing a PhD in Canada? Canada is renowned for its high academic standards, multicultural society, and strong support for international students. Pursuing a PhD in Canada provides access to worldclass research facilities, diverse funding opportunities, and a collaborative academic environment. Graduates often benefit from excellent career prospects both within Canada and internationally. Question: What makes the University of Calgary a good choice for graduate studies? The University of Calgary is recognized for its research excellence, innovation, and supportive academic environment. Graduate students benefit from access to leading faculty, interdisciplinary research opportunities, and a vibrant campus life in one of Canadas most dynamic cities. Question: What is the significance of microfluidic electrofiltration in biomedical research? Microfluidic electrofiltration enables precise separation and analysis of biological nanoparticles, such as extracellular vesicles. This technology is crucial for advancing diagnostics, drug delivery systems, and understanding disease mechanisms at the molecular level. Question: Which academic backgrounds are suitable for this PhD position? Applicants should have a background in biomedical engineering or a closely related field, such as electrical engineering, mechanical engineering, nanotechnology, or biophysics. Experience with laboratory experiments and computational modeling is highly desirable. Question: Are there opportunities for professional development during the PhD? Yes, PhD students have the opportunity to present their research at conferences, publish in peerreviewed journals, and collaborate with leading researchers. The University of Calgary also offers workshops and resources for career development, teaching, and leadership skills. Question: How can I find more information or apply for this position? For detailed application instructions and further information, please refer to the official LinkedIn post by Dr. Arin Sen: to calculate your PhD admission chances? Try it here: Were an independent team helping students find opportunities. Found this opportunity helpful? Support us with a coffee! Also See Comprehensive Guide to Graduate Application Deadlines for US Universities (Fall 2026 Intake) Canada PhD in Transportation Engineering at University of Calgary Canada Graduate Research in Power Electronics at University of Calgary UK Fully Funded PhD Engineering Scholarship at University of Cambridge UK PhD in Cement/Steel Interface Degradation at University of Leeds #J-18808-Ljbffr